Tuesday, January 30, 2018

Antidepressant may also alleviate multiple sclerosis symptoms

Skeletal formula of clomipramine
The antidepressant clomipramine may also alleviate symptoms of multiple sclerosis (MS), specifically in its progressive form, i.e. when it occurs without relapses or remissions. As yet, drugs for this type of MS have been virtually non-existent. Researchers collaborating with Prof V. Wee Yong, PhD, from the University of Calgary and Dr Simon Faissner from Ruhr-Universität Bochum screened 1,040 generic therapeutics and, based on preclinical studies, identified one that is suitable for the treatment of multiple sclerosis. They published their results in the journal "Nature Communications" from December 19, 2017.
Today, twelve drugs have been approved for the treatment of relapsing-remitting multiple sclerosis; for the progressive types, on the other hand, only a few therapy approaches exist. "The mechanisms causing damage in progressive MS are not always the same as in relapsing-remitting MS. This is why the latter requires different therapeutic approaches," says Simon Faissner. As postdoctoral researcher of the Department of Neurology at St Josef-Hospital in Bochum, he contributed to a study carried out at the Cumming School of Medicine, University of Calgary as a visiting scholar, funded by the grant for medical research awarded by the Ruhr-Universität's Faculty of Medicine.
Potential side effects already well-documented
The team worked with approved drugs, the side effects of which have already been amply documented. From among those drugs, the researchers selected 249 well-tolerated therapeutics that enter the nervous system safely; this is where chronic inflammation occurs in progressive MS. Using cell cultures, they tested which of the 249 substances are capable of protecting nerve cells from the damaging influence of iron. In MS patients, iron is released due to cell damage, damaging nerve cells in turn.
Following those tests, 35 potential candidates were identified; the researchers subsequently analyzed them with regard to additional properties: investigating, for example, if they can reduce damage to mitochondria - the powerhouses of the cells - or if they minimise the activity of leucocytes that attack the insulation of nerve cells in MS patients. In the process, the drug clomipramine proved promising.
Positive results in preclinical studies
In the next step, the researchers analyzed the substance in mice suffering from a disease comparable with relapsing-remitting multiple sclerosis in humans. The therapy suppressed the neurological disturbances completely; as a result, damages to the nerve cells and inflammation were minimised.
In a subsequent test, they treated mice with a disease that resembles progressive MS in humans. Here, too, the therapy proved effective, provided the researchers applied it immediately after the first clinical symptoms became apparent. Symptoms such as paralysis were thus reduced - unlike in control animals that were treated with placebo drugs.
Clinical studies planned
Simon Faissner returned from Canada to Bochum in January 2017. As a member of Prof Dr Ralf Gold's research group, he is continuously striving to identify new drugs with the potential of protecting from MS and to gain a better understanding of the mechanisms underlying the progressive type of the disease.
"Based on promising preclinical data, our long-term objective is to study clomipramine as well as other therapeutics selected in the screening process on patients in clinical studies," explains Faissner. "An advantage of generic drugs is the fact that there is ample clinical experience regarding their potential side effects." Accordingly, there is no need to perform phase-1 trials to study the tolerance of the drug in healthy volunteers. "The funding of such studies always poses a considerable challenge," concludes Faissner.
Progressive multiple sclerosis
In the Western world, multiple sclerosis is the most common cause of neurological disabilities in young people. In MS patients, leukocytes damage the layer surrounding nerve cells, the so-called myelin sheath. This results in neurological disturbances; in 85 percent of patients, the disease is characterized by clearly defined relapses and may cause e.g. visual impairment, paralysis or numbness. The majority of patients experience gradual deterioration after 15 to 20 years, which is referred to as progression. In ten percent of the patients, the disease is progressive from the outset, without any relapses along the way.
Ref : http://news.rub.de/english/press-releases/2017-12-20-medicine-antidepressant-may-help-combat-course-multiple-sclerosis

Monday, January 29, 2018

FDA-approved drug to treat high blood pressure increases life span in worms

Skeletal formula of hydralazine
UT Southwestern Medical Center researchers find that an FDA-approved drug to treat high blood pressure seems to extend life span in worms via a cell signaling pathway that may mimic caloric restriction.
The drug, hydralazine, extended life span about 25 percent in two strains of C. elegans(roundworms), one a wild type and the other bred to generate high levels of a neurotoxic protein called tau that in humans is associated with Alzheimer's disease.
"This is the first report of hydralazine treatment activating the NRF2/SKN-1 signaling pathway. We found the drug extends the life span of worms as well as or better than other potential anti-aging compounds such as curcumin and metformin. The treatment also appeared to maintain their health as measured by tests of flexibility and wiggling speed," said Dr. Hamid Mirzaei, Assistant Professor of Biochemistry at UT Southwestern and senior author of the study, published today in Nature Communications.
The NRF2 pathway protects human cells from oxidative stress. The body's ability to protect itself against damaging oxygen free radicals diminishes with age, he said.
One of the hallmarks of aging and neurodegenerative diseases such as Alzheimer's and Parkinson's is oxidative stress, which is believed to result cumulatively from inflammatory and infectious illnesses throughout life, Dr. Mirzaei explained. SKN-1, a C. eleganstranscription factor, corresponds to NRF2 in humans. Both play a pivotal role in their respective species' responses to oxidative stress and life span, he said.
The UT Southwestern researchers were searching for a chemical probe they could use in experiments to identify proteins that get oxidized and become toxic during aging. Their screen for a substance that would cross the blood-brain barrier and be nontoxic led them to hydralazine.
"Age-related neurodegenerative diseases are devastating, and those conditions are on the rise due to the increase in the life span of humans. For that reason, it is important to develop treatments to maintain human health as long as possible," said Dr. Mirzaei, who is also an investigator in the Center for Alzheimer's and Neurodegenerative Diseases, part of the Peter O'Donnell Jr. Brain Institute at UT Southwestern.
http://www.utsouthwestern.edu/newsroom/articles/year-2017/hbp-drug.html



Friday, January 26, 2018

Novel drug shows promise in treating metastatic kidney cancer

PT-2385 Chemical Structure                    Model of drug interaction
Metastatic kidney cancer remains largely incurable. Despite a dozen treatments and several immunotherapies, survival rates beyond 5 years remain around 10 percent. A study published in the Journal of Clinical Oncology reports initial findings with a novel drug belonging to a new class of medicines called HIF-2a inhibitors that show promise in treating metastatic kidney cancer.
Among 51 patients with aggressive kidney cancer that had progressed through four prior treatments on average, PT2385, the first HIF-2a inhibitor to be evaluated in clinical trials, blocked tumor growth for at least 4 months in 40 percent of the patients. Furthermore, cancer growth was stopped for more than a year in 25 percent of the patients. In addition, side effects were minimal.
"The combination of activity and tolerability is very encouraging," said corresponding author Dr. Kevin Courtney, Assistant Professor of Internal Medicine at UT Southwestern's Harold C. Simmons Comprehensive Cancer Center. "We treated multiple patients on this trial in the Kidney Cancer Program at UT Southwestern, more than at any other institution. In our experience, this HIF-2a inhibitor offers a combination of safety and potential activity that is unique compared to current treatments for advanced kidney cancer."
PT2385, developed by Peloton Therapeutics Inc., represents the culmination of two decades of research at UT Southwestern beginning with the discovery of HIF-2a by Dr. Steven McKnight, Professor of Biochemistry who holds the Distinguished Chair in Basic Biomedical Research, and Dr. David Russell, Vice Provost, Dean of Research, and holder of the Eugene McDermott Distinguished Chair in Molecular Genetics. Next was the finding of a vulnerability in HIF-2a by Dr. Richard Bruick, Professor of Biochemistry and the Michael L. Rosenberg Scholar in Biomedical Research, and Dr. Kevin Gardner, Professor of Biophysics. This research was followed by the identification of chemicals that exploit a crevice in HIF-2a to destroy its activity. These chemicals were then licensed to Peloton Therapeutics, in the UT Southwestern BioCenter at Southwestern Medical District, which developed the HIF-2a blocking drug.
In a manuscript published in Nature last year, Dr. James Brugarolas, Professor of Internal Medicine, showed that blocking HIF-2a successfully reduced the growth of 50 percent of kidney cancers that were transplanted from patients into mice. In fact, the HIF-2a drug had greater activity in this study and was better tolerated than sunitinib, the most commonly prescribed drug for kidney cancer.
Dr. Brugarolas, who directs the Kidney Cancer Program and is the Principal Investigator of one of only two Specialized Programs of Research Excellence (SPORE) in kidney cancer designated by the National Cancer Institute, is now working to identify patients who are most likely to benefit from treatment with PT2385. "One of the biggest challenges we face across all treatments for kidney cancer is pairing the right drug with the right patient," said Dr. Brugarolas, who also holds the Sherry Wigley Crow Cancer Research Endowed Chair in Honor of Robert Lewis Kirby, M.D.
"HIF-2a, which fuels cell growth, is the most important driver of kidney cancer and the development of a drug that is helping patients is a remarkable outgrowth of our research," said Dr. Russell.
UT Southwestern Medical Center owns stock in Peloton Therapeutics and has a financial interest in the clinical trial described in the Journal of Clinical Oncology article. Drs. Bruick, Gardner, and McKnight have financial interests related to consulting; and Drs. McKnight, Bruick, and Gardner related to investment.
http://www.utsouthwestern.edu/newsroom/articles/year-2017/kidney-cancer-drug.html

Thursday, January 25, 2018

Tapeworm drug could provide new hope for patients with Parkinson's disease

In continuation of Niclosamide
Niclosamide.svg
Researchers at Cardiff University, in collaboration with the University of Dundee, have identified a drug molecule within a medicine used to treat tapeworm infections which could lead to new treatments for patients with Parkinson's disease.
Parkinson's disease is a long-term degenerative disorder of the central nervous system that, according to the charity, Parkinson's UK, affects one person in every 500. That means an estimated 127,000 people are currently living with Parkinson's disease in the UK alone.
Over the last decade or so, researchers striving to find a cure for this debilitating disease have focused their attention on a protein found in the human body known as PINK1. It's understood that the malfunction of this protein is one of the leading causes of Parkinson's disease.
Several studies have suggested that discovering a drug which is capable of enhancing the function of PINK1 could be a significant step in halting neurodegeneration and therefore slow down or even treat Parkinson's disease.
With this knowledge in mind, researchers at Cardiff and Dundee Universities have discovered that a drug traditionally used to treat tapeworm infections, named Niclosamide, is also an effective activator of the PINK1 protein.
Furthermore, the research, funded by The Welcome Trust, revealed that Niclosamide and some of its derivatives could enhance PINK1 performance within cells and neurons. This has given the researchers reason to believe that this drug could provide new hope for patients living with Parkinson's disease.
Dr Youcef Mehellou, from Cardiff University's School of Pharmacy and Pharmaceutical Sciences, who co-lead the study, said: 'This work represents the first report of a clinically used drug to activate PINK1 and may hold promise in treating Parkinson's disease. We will now take our findings to the next level by evaluating the ability of Niclosamide to treat Parkinson's disease in disease models. This is an exciting stage of our research and we are positive about the long term impact it could have on patients' lives."
Ref : http://www.cardiff.ac.uk/news/view/1027540-tapeworm-drug-could-lead-the-fight-against-parkinsons-disease

Wednesday, January 24, 2018

Anti-stress compounds provide new treatment approach for diabetes and obesity

For the first time, scientists from the Max Planck Institute of Psychiatry in Munich could prove that a stress protein found in muscle has a diabetes promoting effect. This finding could pave the way to a completely new treatment approach.
For some time, researchers have known that the protein FKBP51 is associated with depression and anxiety disorders. It is involved in the regulation of the stress system - when the system does not function properly; mental disorders may develop. Now, researchers at the Max Planck Institute of Psychiatry have discovered a new, surprising role for this protein: It acts as a molecular link between the stress regulatory system and metabolic processes in the body.
"FKBP51 influences a signaling cascade in muscle tissue, which with excessive calorie intake leads to the development of glucose intolerance, i.e., the key indicator of diabetes type 2," project leader Mathias Schmidt summarizes. An unhealthy diet, rich in fat means stress for the body. If FKBP51 is increasingly produced in the muscle it leads to reduced absorption of glucose - as a result, diabetes and obesity may develop.
If FKBP51 is blocked, diabetes will not develop, even if too many calories are consumed or the body is still stressed. Less FKBP51 in the muscle tissue means reduced glucose intolerance and thus maintenance of normal metabolism.
Antagonist provides novel treatment approach
The protein FKBP51 can be pharmacologically blocked by antagonist compounds that were developed at the Max Planck Institute by Felix Hausch (presently at University of Darmstadt). In collaboration with the scientists at the Technical University Darmstadt and funded by the Bavarian State Ministry of Economic Affairs and Media, Energy and Technology, these compounds will be further developed for use in clinical trials. "These findings may provide a completely new treatment approach for diabetes and other metabolic diseases," states Alon Chen, Director at the Max Planck Institute of Psychiatry.​
Ref : https://www.mpg.de/11850791/diabetes-fkbp511


Tuesday, January 23, 2018

Study: Ketamine more effective than common sedative in reducing suicidal thoughts

In continuation of my update on ketamine
Ketamine.svg
Ketamine was significantly more effective than a commonly used sedative in reducing suicidal thoughts in depressed patients, according to researchers at Columbia University Medical Center (CUMC). They also found that ketamine's anti-suicidal effects occurred within hours after its administration.
The findings were published online last week in the American Journal of Psychiatry.
According to the Centers for Disease Control and Prevention, suicide rates in the U.S. increased by 26.5 percent between 1999 and 2015.
"There is a critical window in which depressed patients who are suicidal need rapid relief to prevent self-harm," said Michael Grunebaum, MD, a research psychiatrist at CUMC, who led the study. "Currently available antidepressants can be effective in reducing suicidal thoughts in patients with depression, but they can take weeks to have an effect. Suicidal, depressed patients need treatments that are rapidly effective in reducing suicidal thoughts when they are at highest risk. Currently, there is no such treatment for rapid relief of suicidal thoughts in depressed patients."
Most antidepressant trials have excluded patients with suicidal thoughts and behavior, limiting data on the effectiveness of antidepressants in this population. However, previous studies have shown that low doses of ketamine, an anesthetic drug, causes a rapid reduction in depression symptoms and may be accompanied by a decrease in suicidal thoughts.
The 80 depressed adults with clinically significant suicidal thoughts who enrolled in this study were randomly assigned to receive an infusion of low-dose ketamine or midazolam, a sedative. Within 24 hours, the ketamine group had a clinically significant reduction in suicidal thoughts that was greater than with the midazolam group. The improvement in suicidal thoughts and depression in the ketamine group appeared to persist for up to six weeks.
Those in the ketamine group also had greater improvement in overall mood, depression, and fatigue compared with the midazolam group. Ketamine's effect on depression accounted for approximately one-third of its effect on suicidal thoughts, suggesting the treatment has a specific anti-suicidal effect.
Side effects, mainly dissociation (feeling spacey) and an increase in blood pressure during the infusion, were mild to moderate and typically resolved within minutes to hours after receiving ketamine.
"This study shows that ketamine offers promise as a rapidly acting treatment for reducing suicidal thoughts in patients with depression," said Dr. Grunebaum. "Additional research to evaluate ketamine's antidepressant and anti-suicidal effects may pave the way for the development of new antidepressant medications that are faster acting and have the potential to help individuals who do not respond to currently available treatments."

Monday, January 22, 2018

Drug used to prevent and treat malaria may also be effective for Zika virus

In continuation of my update on chloroquine
Chloroquine.svg
A new collaborative study led by researchers at Sanford Burnham Prebys Medical Discovery Institute (SBP) and UC San Diego School of Medicine has found that a medication used to prevent and treat malaria may also be effective for Zika virus. The drug, called chloroquine, has a long history of safe use during pregnancy, and is relatively inexpensive. The research was published today in Scientific Reports.
Zika virus remains a major global health risk. In most adults, Zika causes mild flu-like symptoms. But in pregnant women, the virus can cause serious birth defects in babies--including microcephaly--a neurological condition in which newborns have unusually small heads and fail to develop properly. There is no treatment or way to reverse the condition.
"There is still an urgent need to bolster our preparedness and capacity to respond to the next Zika outbreak," says Alexey Terskikh, Ph.D., associate professor at SBP. "Our latest research suggests the anti-malaria drug chloroquine may be an effective drug to treat and prevent Zika infections."
Terskikh is co-senior author of a new study that examined the effect of chloroquine in human brain organoids and pregnant mice infected with the virus, and found the drug markedly reduced the amount of Zika virus in maternal blood and neural progenitor cells in the fetal brain. Pregnant mice received chloroquine through drinking water in dosages equivalent to acceptable levels used in humans.
"Our research is the first to study Zika infection in a mouse model that transmits the virus in a way similar to humans," explains Alysson R. Muotri, Ph.D., professor and director of the Stem Cell Program at UC San Diego and co-senior author of the study. "Until now, researchers used a mouse strain that is deficient in interferon--a signaling protein that heightens anti-viral defenses. Those mice actually die from Zika infection, making it difficult to study the natural transmission of the virus from father and mother to fetus and to assess the effect of this transmission on the newborns.
"We believe our mouse model more accurately represents the way Zika virus infects men, women, and babies while in the womb," adds Terskikh. "Although chloroquine didn't completely clear Zika from infected mice it did reduce the viral load, suggesting it could limit the neurological damage found in newborns infected by the virus."
"In the 1950's, the Brazilian health agencies added chloroquine into cooking salt and distributed it to the population in endemic areas as an effective way of spreading the inexpensive anti-malarial drug as a prophylactic on a wide scale. This strategy was known as Pinotti's Method, named after its originator Dr. Mario Pinotti. It might be worth considering this medicated salt program one more time in Brazil", suggests Muotri.
"Chloroquine has a long history of successfully treating malaria, and there are no reports of it causing birth defects," says Terskikh. "Additional studies are certainly needed to determine the precise details of how it works. But given its low cost, availability and safety history further study in a clinical trial to test its effectiveness against Zika virus in humans is merited."
Ref : http://www.newswise.com/articles/view/685239/

Friday, January 19, 2018

Dr. Reddy’s Announces Approval of Impoyz (clobetasol propionate) Cream for Plaque Psoriasis

Dr. Reddy’s Laboratories Ltd. through its wholly owned subsidiary Promius Pharma, LLC, announced its fifth consecutive, first-cycle NDA approval for the Proprietary Products Group, a substantial milestone within the pharmaceutical industry.
Impoyz (clobetasol propionate) Cream, 0.025% is a high potency topical steroid approved for the treatment of moderate to severe plaque psoriasis in patients 18 years of age or older. The most common side effect of Impoyz Cream includes discoloration of the treated site. Psoriasis is a serious medical condition affecting approximately 7.5 million people in the United States. Impoyz, formerly referred to as DFD-06, had been recently licensed to Encore Dermatology Inc. for the commercialization of the product in the United States.

Clobetasol Propionate.svg
This approval is another example of the deep and broad capabilities within the Proprietary Products business unit at Dr. Reddy’s. The organization has achieved several milestones within drug, device, and formulation research and development for novel therapies.
“The fifth consecutive first cycle NDA approval represents Dr. Reddy’s long-term commitment to building an organization that delivers innovative medical solutions,” said Anil Namboodiripad, PhD, Senior Vice President, Proprietary Products and President, Promius Pharma. “We are looking forward to working with our partner, Encore Dermatology, to bring this novel treatment to providers and their patients.”
“Encore is excited about adding another great product to our portfolio and looking forward to the opportunity to commercialize a new product for the treatment of mild to moderate psoriasis as well as broadening our portfolio outside of atopic dermatitis and acne,” said Robert Moccia, CEO, Encore Dermatology, Inc.

Thursday, January 18, 2018

Trial shows apple allergen as effective treatment option for birch pollen-related apple allergy

In continuation of my update on Osimertinib

Osimertinib.svg
Osimertinib improves progression-free survival compared to standard first line therapy in Asian patients with EGFR-mutated non-small-cell lung cancer (NSCLC), according to the Asian subset analysis of the FLAURA trial presented at the ESMO Asia 2017 Congress, sumultaneously published in The New England Journal of Medicine.
EGFR mutations occur in 30-40% of NSCLC in Asian populations compared to 10-15% in Western populations. The phase III FLAURA trial compared osimertinib, a third generation EGFR-tyrosine kinase inhibitor (TKI), to standard of care EGFR-TKIs (erlotinib or gefitinib) as first line therapy in NSCLC patients with EGFR mutations. A total of 556 patients from Asia, Europe, and North America were randomized 1:1 to treatment with osimertinib or standard of care. Osimertinib improved progression-free survival by 54%.
This subset analysis included the 322 Asian patients in the FLAURA trial, of whom 46 were Chinese, 120 were Japanese, and 156 were from other parts of Asia.
The median progression-free survival was 16.5 months with osimertinib compared to 11.0 months for the standard therapy, with a hazard ratio of 0.54 (95% confidence interval, 0.41-0.72; p<0.0001).
The median duration of response was two-fold higher for patients treated with osimertinib (17.6 months) compared to standard of care (8.7 months). The overall response rate was 80% with osimertinib compared to 75% with standard of care treatment. Median overall survival was not reached. The incidence of grade 3 or higher toxicities was lower for osimertinib (40%) than the standard treatment (48%).
Lead author Professor Byoung Chul Cho, Yonsei Cancer Center, Seoul, Korea, said: "As in the overall trial population, osimertinib provided a significant progression-free survival benefit in Asian patients with EGFR-mutated NSCLC. Asian patients had similar toxicities with osimertinib as the overall FLAURA population. Osimertinib should be the preferred first line treatment for EGFR-mutant NSCLC in Asia."
Commenting on the findings Professor James CH Yang, Chairman, Graduate Institute of Oncology, National Taiwan University College of Medicine, Taipei City, Taiwan, said: "The results of this subset analysis are quite compatible with the findings in the overall population presented at the ESMO 2017 Congress in Madrid. We can therefore conclude that osimertinib can be considered as the standard of care for the first line treatment of Asian advanced NSCLC patients with EGFR mutations."
"The proportion of patients having adverse events that caused them to stop taking osimertinib was similar in the overall (13%) and Asian (15%) populations," added Yang. "We tend to think osimertinib is a well tolerated drug so these discontinuation rates were surprisingly high and need further investigation."
Yang continued: "Although there was no statistical difference between the hazard ratios for progression-free survival, it was numerically lower in non-Asians (0.34) compared to Asians (0.54). There is an ongoing debate as to whether Asian and non-Asian patients with EGFR mutations have distinct responses to EGFR-TKIs. This might be due to variations in clinical practice rather than biology. A meta-analysis of all relevant studies could shed light on this issue."
"It will also be important to know whether Asian and non-Asian patients in the FLAURA trial with brain metastases had similar outcomes," said Yang.

Tuesday, January 16, 2018

Soy foods, cruciferous vegetables may reduce breast cancer treatment’s side effects

In continuation of my update on soy milk
Consuming soy foods (such as soy milk, tofu and edamame) and cruciferous vegetables (such as cabbages, kale, collard greens, bok choy, Brussels sprouts, and broccoli) may be associated with a reduction in common side effects of breast cancer treatment in breast cancer survivors, say a team of scientists led by Georgetown Lombardi Comprehensive Cancer Center.
In the study, published in Breast Cancer Research and Treatment, higher intake of cruciferous vegetables and soy foods were associated with fewer reports of menopausal symptoms. Higher soy intake was also associated with less reported fatigue. The breast cancer survivors studied included 173 non-Hispanic white and 192 Chinese Americans including US-born Chinese and Chinese immigrants.
Researchers say breast cancer survivors often experience side effects from cancer treatments that can persist months or years after completion of treatment. For example, because many treatments designed to prevent breast cancer recurrence inhibit the body's production or use of estrogen, the hormone that can fuel breast cancer growth, breast cancer patients often experience hot flashes and night sweats, among other side effects.
The lead author on the study, Sarah Oppeneer Nomura, PhD, of Georgetown Lombardi, said that while further research is needed in larger study populations and with more detailed dietary data, this project addresses an important gap in research on the possible role of lifestyle factors, such as dietary habits, in relation to side effects of treatments.
"These symptoms can adversely impact survivors' quality of life and can lead them to stopping ongoing treatments, she says. "Understanding the role of life style factors is important because diet can serve as a modifiable target for possibly reducing symptoms among breast cancer survivors."
When study participants were evaluated separately by race/ethnicity, associations were significant among white breast cancer survivors; however; while a trend was seen in the benefit for Chinese women, results were not statically significant. Researchers explain Chinese women typically report fewer menopausal symptoms. Most of them also consume cruciferous vegetables and soy foods, making it difficult to see a significant effect in this subgroup. Indeed, in this study, Chinese breast cancer survivors ate more than twice as much soy and cruciferous vegetables.
Whether the reduction in symptoms accounts for longtime use of soy and cruciferous vegetables needs further investigation, says the study's senior author, Judy Huei-yu Wang, PhD, of Georgetown Lombardi's Cancer Prevention and Control Program.
Results obtained in preclinical studies in animals show that biologically active compounds present in both soy and cruciferous vegetables cause breast cancer cells to grow, but have opposite effects in animals that consume these compounds well before cancer is diagnosed and continue consuming them during and after cancer treatments.
Until more research is conducted, breast cancer patients should not suddenly start eating soy, if they have not consumed it before, says Leena Hilakivi-Clarke, PhD, a professor of oncology at Georgetown Lombardi and a co-author of the study.
Researchers also found suggestive associations with lower reporting of other symptoms, including joint problems, hair thinning/loss and memory less in women who consumed more soy foods, but these associations did not reach statistical significance.
Phytochemicals, or bioactive food components, such as isoflavones in soy foods and glucosinolates in cruciferous vegetables may be the source of the benefit, researchers say. Isoflavones bind to estrogen receptors and exert weak estrogenic effects, among other effects. Glucosinolates in cruciferous vegetables influence levels of metabolizing enzymes that can modulate inflammation and levels of estrogen, possibly attenuating treatment-related symptoms.

Monday, January 15, 2018

Novel compound along with checkpoint inhibitors may enhance immune response in melanoma patients

A novel compound may restore immune response in patients with melanoma, according to a study presented at the ESMO Immuno Oncology Congress 2017.
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"Checkpoint inhibitors are a standard of care immunotherapy for metastatic melanoma," said lead author Dr Sapna Patel, Assistant Professor, Department of Melanoma Medical Oncology, University of Texas MD Anderson Cancer Center, Houston, US. "However, many patients do not respond because myeloid derived suppressor cells (MDSCs), a type of inhibitory cell, are present in the tumor microenvironment."
"In animal studies, omaveloxolone inhibited MDSCs and restored immune activity," she continued. "Myeloid-derived suppressor cells (MDSCs) produce reactive nitrogen radicals that alter the receptors on the surface of the tumor to hide it from cytotoxic lymphocytes that kill tumor cells. Omaveloxolone inhibits MDSC activity, suppresses reactive nitrogen radicals, and restores anti-tumor immune responses. Administering omaveloxolone with checkpoint inhibitors may improve the antitumor response of these immunotherapies."
This open label, multicenter, phase 1B trial investigated the safety and efficacy of omaveloxolone in combination with the checkpoint inhibitors ipilimumab or nivolumab. The study included 30 patients with unresectable or metastatic melanoma, of whom seven were naïve to checkpoint inhibitors and 23 had prior checkpoint inhibitor treatment.
The overall response rate was 57% in checkpoint inhibitor naïve patients and 17% in those with prior exposure. Median time to response was 19 weeks. There were no serious adverse events related to omaveloxolone and it was well tolerated in combination with ipilimumab or nivolumab.
Dr Patel said: "Our findings suggest that omaveloxolone may overcome resistance to checkpoint inhibitors. Omaveloxolone in combination with checkpoint blockade had activity in both naïve and checkpoint inhibitor refractory melanoma patients."
She added: "This is one of the first studies to demonstrate a meaningful response rate in the checkpoint inhibitor refractory melanoma population. Further dose escalation and dose expansion studies are underway as well as translational tissue-based experiments to clarify the impact of this treatment combination."
Commenting on the study for ESMO, Dr Olivier Michielin, head of Personalised Analytical Oncology, Centre Hospitalier Universitaire Vaudois (CHUV), Lausanne, Switzerland, said: "Omaveloxolone's novel mechanism of action is to block MDSCs, cells known to suppress the immune response. This study tested a new combination therapy in immuno oncology and found encouraging response rates with omaveloxolone plus ipilimumab or nivolumab in patients who were checkpoint inhibitor naïve or resistant. The combination was well tolerated and may address some of the immune escape mechanisms that limit the activity of current checkpoint blockade therapies."
Michielin added: "More data is needed before we can make a final call on whether there is a place, and where would the place be, for this combination in the current treatment portfolio. The next step should be a randomized trial to investigate whether omaveloxolone provides additional benefit when combined with the checkpoint blockade backbone, for example, comparing the efficacy of PD-1 blockade alone versus PD-1 blockade plus omaveloxolone."

Friday, January 12, 2018

Drug improves disease-free, overall survival after hematopoietic stem cell transplants

In continuation of my update on Abatacept (Orencia)
Results from a phase 2 clinical trial, presented by Seattle Children's Research Institute at the 59th American Society of Hematology (ASH) Annual Meeting, show that the drug Abatacept (Orencia) nearly eliminated life-threatening severe acute graft-versus-host disease (GvHD) in patients receiving hematopoietic stem cell transplants.
Abatacept, when added to the standard drug regimen used to prevent GvHD, reduced the occurrence of acute, grade III-IV GvHD from 32 to 3 percent in pediatric and adult patients who underwent mismatched unrelated donor stem cell transplants to treat advanced cancer and other blood disorders. As a result, patients receiving the post-transplant regimen with abatacept experienced improved disease-free and overall survival compared to those who did not.
Acute GvHD is the most deadly complication that can arise after stem cell transplantation. Graft-versus-host disease occurs when the donated T cells, white blood cells in the immune system that fight infection, launch a vigorous attack on a patient's organs, including the skin, liver, kidneys, lung, and the gastrointestinal tract. For patients receiving cells from an unrelated donor, the rate of mild-to-severe forms of acute GvHD can reach as high as 80 percent, with up to half of patients dying from the most severe forms.
"Given the serious threat of graft-versus-host disease, new approaches to make stem cell transplants safer for patients remain a critical unmet need," said Dr. Leslie Kean, the trial's principal investigator and associate director of the Ben Towne Center for Childhood Cancer Research at Seattle Children's. "To see such striking results in patients at extremely high risk for graft-versus-disease is incredibly encouraging."
Kean first became interested in using abatacept to prevent GvHD based on the immunotherapy drug's success in treating patients with rheumatoid arthritis. In rheumatoid arthritis, abatacept inhibits T-cell activation and prevents the chain of events that lead to debilitating joint inflammation.
Similarly, feasibility studies conducted by Kean found that abatacept blocks the activation of certain T cells after transplant. In their models, abatacept reduced the proliferation and activation of effector T cells. Effector T cells incite GvHD when they become overactive as the patient's immune system starts to rebuild itself from the donor stem cells.
"Preventing graft-versus-host disease and relapse after transplant requires a difficult balance of eliminating the bad, overactive effector T cells, without suppressing the good, regulatory T cells," said Kean, who is also an associate professor of pediatrics at the University of Washington School of Medicine and a member of the Fred Hutchinson Cancer Research Center. "As we make improvements to our toolbox of agents capable of achieving this Holy Grail of stem cell transplant, it's essential to include targeted approaches like abatacept."
The multicenter data presented included two patients cohorts who were enrolled across 18 sites. In the cohort of patients who received transplants from mismatched unrelated donors, all 43 patients received four doses of abatacept with a calcineurin inhibitor and methotrexate. To serve as the control, researchers looked at data from a national database of matched patients receiving two commonly used regimens to prevent GvHD - a calcineurin inhibitor and methotrexate (CNI/MTX) or a calcineurin inhibitor and methotrexate plus anti-thymocyte globulin (+ATG).
At 100 days post-transplant, the cumulative incidence of grade III-IV acute GvHD occurred in 3 percent of patients receiving abatacept compared to 32 percent receiving CNI/MTX and 22 percent receiving +ATG. Patients receiving abatacept had intact immune reconstitution, significant improvement in transplantation-related mortality, no major uncontrolled infection and no increase in disease relapse. Significant survival advantages for the abatacept group were demonstrated at one year post-transplant. Overall survival improved to 85 percent (vs. 57 percent in CNI/MTX and 68 percent in +ATG controls); 79 percent of patients experienced disease-free survival (vs. 50 percent in CNI/MTX and 63 percent in +ATG controls).
The second cohort of 140 patients with human leukocyte antigen-matched unrelated donor transplants completed enrollment in November 2017, with data expected from this randomized double-blind arm of the study in the next six months.
"As a transplant physician, it's beyond heartbreaking to witness a patient develop severe acute graft-versus-host disease after having their leukemia cured through bone marrow transplant," said Kean. "To have a therapy at our disposal that safely targets just the T cells causing graft-versus-host disease would represent a major step forward in stem cell transplantation. It not only offers new hope that we can prevent graft-versus-host disease upfront, but that we can also significantly improve outcomes for patients requiring high-risk transplants."

Thursday, January 11, 2018

Ortho Dermatologics Announces U.S. FDA Filing Acceptance For IDP-118, Novel Plaque Psoriasis Treatment

Ortho Dermatologics, a division of Valeant Pharmaceuticals International, Inc. (NYSE: VRX and TSX: VRX), today announced that the U.S. Food and Drug Administration (FDA) has accepted the New Drug Application (NDA) for IDP-118 (halobetasol propionate and tazarotene) lotion, an investigational topical treatment for plaque psoriasis. The PDUFA action date is June 18, 2018.
tazarotene.pngtazarotene HALOBETASOL PROPIONATE.png
If approved, IDP-118 will be the first and only topical lotion that contains a unique combination of halobetasol propionate and tazarotene in one formulation for the treatment of plaque psoriasis in adult patients, allowing for a potentially expanded duration of use.
The most common adverse events were contact dermatitis (7.4%) and application site pain (2.6%)...


Wednesday, January 10, 2018

New small-molecule drug restores brain function, memory in mouse model of Alzheimer's disease

In continuation of my update  on canola oil

An international team of researchers has shown that a new small-molecule drug can restore brain function and memory in a mouse model of Alzheimer's disease. The drug works by stopping toxic ion flow in the brain that is known to trigger nerve cell death. Scientists envision that this drug could be used to treat Alzheimer's and other neurodegenerative diseases such as Parkinson's and ALS.
"This is the first drug molecule that can regulate memory loss by directly blocking ions from leaking through nerve cell membranes," said Ratnesh Lal, a professor of bioengineering at the University of California San Diego and co-senior author of the study.
Various studies have linked Alzheimer's disease to the accumulation of two particular proteins in the brain called amyloid-beta and tau. One theory is that these protein clusters create pores in nerve cell membranes that allow ions to travel in and out uncontrollably. This would alter ion levels inside the cells and in turn trigger neuronal dysfunction and cell death.
The new drug, a small molecule called anle138b, blocks these pores from moving ions in and out of nerve cells. Anle138b attaches to both amyloid-beta and tau protein clusters and deactivates the pores created by these clusters.
Researchers administered anle138b to mice with a genetic predisposition for developing an Alzheimer's-like condition. The mice had symptoms such as abnormal brain function, impaired memory and high levels of either amyloid-beta or tau proteins in the brain. Treatment with anle138b normalized brain activity and improved learning ability in mice.
The study was led by the German Center for Neurodegenerative Diseases, the University Medical Center Göttingen, the Braunschweig University of Technology, the Max Planck Institute for Biophysical Chemistry, the Center for Nanoscale Microscopy and Molecular Physiology of the Brain in Göttingen, Germany, and the University of California San Diego. Researchers published their findings on Dec. 5 in EMBO Molecular Medicine.
Christian Griesinger, a professor at the Max Planck Institute for Biophysical Chemistry and co-senior author of the study, noted, "The drug is able to reach the brain when taken orally. Therefore, it is easy to administer, and we are currently performing toxicology studies to eventually be able to apply anle138b to humans."
The team cautions that since the drug has so far only been tested in mice, it is unclear how well it would perform in humans. "I would like to emphasize that none of the current animal models fully recapitulate the symptoms seen in Alzheimer's patients. Thus, care has to be taken when interpreting such data. However, our study offers evidence that anle138b has potential for neuroprotection," said André Fischer, a senior researcher at the German Center for Neurodegenerative Diseases and the University Medical Center Göttingen, who is also a co-senior author of the study.
While collaborators in Germany will be pursuing clinical studies in human patients with neurodegenerative diseases, Lal and his research group at the UC San Diego Jacobs School of Engineering are particularly interested in testing anle138b on a variety of other diseases that are linked to toxic ion flow caused by amyloid proteins, including diabetes, tuberculosis and certain types of cancer. Lal's group has performed extensive research on amyloid ion channels and their roles in these diseases. "Blocking the ion leakiness of amyloid channels using anle138b could be an effective therapy for various diseases," Lal said.
Lal serves as co-director for the Center of Excellence for Nanomedicine and Engineering, a subcenter of the Institute of Engineering in Medicine at UC San Diego. His research group will also work on targeted delivery of the drug using their patent pending "nanobowls," which are magnetically guided nanoparticles that can be packed with drugs and diagnostic molecules, deliver them to particular sites in the body and release them on demand. Future studies will focus on using these nanobowls to deliver anle138b to the brain, as well as other diseased tissues and organs affected by toxic amyloid-beta ion channels.
http://ucsdnews.ucsd.edu/pressrelease/experimental_drug_block_toxic_ion_flow_linked_to_alzheimers_disease

Avion Pharmaceuticals Announces FDA Approval of Balcoltra (levonorgestrel and ethinyl estradiol tablets and ferrous bisglycinate tablets) Oral Contraceptive

Levonorgestrel.svg 

Avion Pharmaceuticals, LLC, the makers of the Prenate® line of prescription prenatal vitamins, received approval of its new drug application (NDA) for the oral contraceptive Balcoltra (levonorgestrel and ethinyl estradiol tablets and ferrous bisglycinate tablets), the company's first internally developed NDA. Avion expects to commercially launch this new oral contraceptive to the prescribing community in Spring 2018.
The approval of Balcoltra, the only branded oral contraceptive combining 0.1 mg levonorgestrel, 20 mcg ethinyl estradiol tablets and ferrous bisglycinate tablets 36.5 mg, marks a milestone for Avion Pharmaceuticals and a win for the women's health category by allowing women to have access to a clinically effective form of oral contraception for pregnancy prevention.
"Avion is excited to offer our women's health community this oral contraceptive formulation that fills a gap in the current branded options available to women," stated Art Deas, CEO of Avion. "The validity of data related to safety and efficacy for Balcoltra also provides another viable prescribing option for our prescribing community," added Deas.


"Avion has always focused on creating a meaningful and long-term supporting role for our women's healthcare prescribers," added Avion President Mike Sullivan. "The Balcoltra™ approval and forthcoming launch is a monumental event for Avion, allowing us to solidify our commitment to the women's healthcare community."


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Avion Pharmaceuticals Announces FDA Approval of Balcoltra (levonorgestrel and ethinyl estradiol tablets and ferrous bisglycinate tablets) Oral Contraceptive

Tuesday, January 9, 2018

New molecule demonstrates ability to block lymphoma growth

The prestigious scientific journal Clinical Cancer Research has published a study conducted by the research group led by Dr. Francesco Bertoni of the Institute of Oncology Research (IOR, affiliated to USI Università della Svizzera italiana), that have tested a new molecule that demonstrates its ability to inhibit lymphoma growth.
Lymphomas are tumors that originate from blood cells, more specifically from lymphatic tissue. There are numerous types of lymphomas and each have different characteristics, aggressiveness, evolution and prognosis. In most cases, the standard treatments include irradiation and chemotherapy, two therapies that can have important side effects. Innovative biological approaches and the discovery of new biological molecules are changing the therapeutic approach and increasing the chances of healing.
Cancer cells are able to elude physiological control and grow in uncontrolled manner. In fact, groups of "pro-tumor" proteins can get activated and no longer respond to the normal intracellular "anti-tumor" control mechanisms. Among the "pro-tumor" proteins, the network including the signal molecules "PI3K/AKT/mTOR" is well known to sustain the survival and proliferation of cancer cells. Importantly, the PI3K/AKT/mTOR signaling axis is active in lymphomas and blocking could represent a good strategy to fight lymphoma cells.
The IOR research group led by Dr. Francesco Bertoni (who is also Vice-president of the SSAK Swiss Group for Clinical Cancer Research Project Group Lymphoma) with in particular Chiara Tarantelli and Eugenio Gaudio, has focused on the possibility to inhibit the PI3K/AKT/mTOR signaling with PQR309 (bimiralisib) in the lymphoma cells. PQR309 is a new molecule produced by a Swiss company that directly blocks multiple proteins driving the PI3K/AKT/mTOR signaling and has shown the ability to block the growth of lymphoma cells.

Image result for PQR309 (bimiralisib)
A drug (idelalisib) that acts by blocking only one specific type of protein in the "PI3K" family (PI3K delta) is already approved for clinical use, but many patients do not respond to this treatment. However, in the laboratory, PQR309 shows that it has anti-tumor activity even in lymphoma models that do not respond to idelalisib. PQR309 seems to act even better when combined with other novel anti-tumoral drugs. Furthermore, the mechanism of action of the drug PQR309 has been investigated and compared to that of other signaling inhibitors, obtaining results with implications in the design of novel treatment schemes for patients with lymphoma.
The results of this study, together with the ongoing clinical studies with PQR309, can lead to better treatments for people affected with lymphoma and to better understanding of the mechanisms of action of anti-lymphoma agents. Lymphomas are among the 10 most common cancers in adults and the third most frequent neoplasia in children and adolescents. Despite the great advancements made in their treatment, European statistics show that around 5 people per 100.000 still succumb to lymphoma every year.
Ref: https://www.usi.ch/en/feeds/6604

Monday, January 8, 2018

New cancer drug begins clinical trial in human patients with rare brain tumor

PAC-1.svg

A drug that spurs cancer cells to self-destruct has been cleared for use in a clinical trial of patients with anaplastic astrocytoma, a rare malignant brain tumor, and glioblastoma multiforme, an aggressive late-stage cancer of the brain. This phase Ib trial will determine if the experimental drug PAC-1 can be used safely in combination with a standard brain-cancer chemotherapy drug, temozolomide.
The trial is approved for patients who have seen their cancer progress after first-line therapy. This is an extension of an ongoing human phase I clinical trial of PAC-1 alone in patients with various late-stage cancers. Phase I trials are designed to test the safety of new drugs in human patients.
PAC-1 is unusual in that it is able to cross the blood-brain barrier, a formidable obstacle to most anti-cancer drugs. The drug targets procaspase-3, an enzyme that is overexpressed in many cancer cells, said University of Illinois chemistry professor Paul Hergenrother, who discovered PAC-1's anti-cancer effects more than a decade ago. After tests in human cell lines and rodents proved promising, Hergenrother and veterinary oncologist Dr. Timothy Fan, a professor of veterinary clinical medicine at Illinois, tested PAC-1 in pet dogs with a variety of naturally occurring cancers.
"Most cancers have elevated levels of procaspase-3," Hergenrother said. "When it is turned on, procaspase-3 kills cells."
Cancer cells override this normal cell-recycling pathway, however, he said.
"PAC-1 restores the activation of procaspase-3 and, because this enzyme is elevated in cancer cells, targets cancer cells over noncancerous cells," he said.
PAC-1 has been evaluated in pet dogs with naturally occurring osteosarcoma, lymphoma and, most recently, glioma - a brain cancer similar to glioblastoma in humans. One 2016 study found that the combination of PAC-1 with doxorubicin, a chemotherapeutic agent that also is used in humans, saw tumor reductions in four of four dogs with lymphoma and in three of six dogs with osteosarcoma. The trials in dogs continue and, so far, have found PAC-1 to be safe, with few observable side effects apart from occasional gastrointestinal distress. The researchers report their latest findings in rodents and in dogs with brain cancer in the journal Oncotarget.
Dogs with certain naturally occurring cancers may be better than other animal models of human cancers because mice and rats used in many cancer drug-testing models must be implanted with human cancer cells to mimic specific types of tumors, Fan said.
"This requires that the rodents be immunocompromised to mitigate rejection of human cells," he said. "As such, most rodent tumor models do not faithfully recapitulate the tumor microenvironment - in particular, the body's immune surveillance of the tumor.
"Rodent models are limited, but they are still useful," Fan said.
Certain cancers in dogs are genetically similar to those in humans and respond to the same medications. Dogs also are more similar in size to humans, and so can be better models to evaluate how well drug agents perform on larger tumor masses.
"I look at pets with spontaneous tumors as being complementary to rodent models and recognize that not all discoveries in pet dogs will necessarily translate similarly to people," Fan said.
The ongoing clinical trial of PAC-1 in human patients with late-stage solid tumors and lymphoma has shown that the drug is well-tolerated at tested doses up to 450 milligrams per day, said medical oncologist Dr. Arkadiusz Dudek, who chairs an advisory board for Vanquish Oncology, which is funding the clinical trials.
The extension of the phase I trial to brain-cancer patients will begin with a PAC-1 dose of 375 mg per day and will increase the dose incrementally to test its safety in combination with the standard brain-cancer chemotherapy agent, temozolomide, he said.
So far, the clinical trials of PAC-1 alone have seen no significant side effects in humans. None of the human patients in the first five dose levels of the single-agent trial has dropped out as a result of side effects, the researchers report. The team cannot report on clinical outcomes in a phase I clinical trial, since such trials are designed to measure safety, not efficacy.
Surgery is a first-line therapy for anaplastic astrocytoma, followed by treatment with temozolomide, a chemotherapy drug that is one of the few effective treatments for brain cancer, Dudek said. Humans with glioblastoma multiforme usually undergo surgery to remove as much of the cancerous tissue as possible, followed by radiation and oral treatment with temozolomide.
It is almost impossible to find and remove all glioblastoma cancer cells in surgery, however, Dudek said.
"Glioblastoma multiforme has this feature of spreading silently along the blood vessels inside the brain," he said. "That's a reason why most patients will unfortunately have disease coming back later on after surgery and radiation."
The median survival time for human patients with glioblastoma undergoing the standard treatment is about 15 months.
The three dogs in the glioma trial received daily oral doses of PAC-1 in combination with temozolomide and "curative-intent" radiation.
Temozolomide is normally too expensive to use in canine patients, Fan said. The dogs tolerated the combination treatment very well and responded well to the therapy, he said.
"All three dogs had, at the very least, what we call a partial response, which means more than a 30 percent reduction in the tumor," he said. "And one of the dogs had a complete response, as identified with serial MRI scans, with a 100 percent reduction in the tumor mass 84 days after combination therapy."
Fan said a much larger study in dogs would be needed to determine whether the therapeutic effects were consistent and reproducible, and to quantify how much PAC-1 contributed to the positive results.
Vanquish Oncology, a drug-development startup company Hergenrother helped found in 2011, has licensed the technology from the University of Illinois and is focused on moving PAC-1 into the clinic. As with any investigational agent, determining the true safety and efficacy profile of PAC-1 will take several years of human clinical trials.
https://news.illinois.edu/blog/view/6367/583399