Wednesday, December 31, 2014

Basilea reports granting of U.S. orphan drug designation to isavuconazole for the treatment of invasive candidiasis



Isavuconazole structure.svg


In continuation of my up date on isavuconazole

Isavuconazole (BAL4815) is an experimental triazole antifungal. Its prodrug, isavuconazonium sulfate (BAL8557) is currently in two Phase III clinical trials (SECURE and VITAL), the results of which are expected in the second half of 2013. 

Basilea Pharmaceutica Ltd. reports today that the U.S. Food and Drug Administration (FDA) has granted orphan drug designation to isavuconazole for the treatment of invasive candidiasis/candidemia, a potentially life-threatening infection caused by Candida yeasts. Isavuconazole has previously been granted orphan drug status in the European Union and the U.S. for the treatment of invasive aspergillosis and mucormycosis.

Tuesday, December 30, 2014

FDA Advisory Committee Recommends Savaysa (edoxaban) for Reduction of Embolic Events in Non-Valvular Atrial Fibrillation



Edoxaban skeletal.svg


Edoxaban (INN, codenamed DU-176b, trade name Lixiana) is an anticoagulant drug which acts as a direct factor Xa inhibitor. It is being developed by Daiichi Sankyo. It was approved in July 2011 in Japan for prevention of venous thromboembolisms (VTE) following lower-limb orthopedic surgery.

Daiichi Sankyo Company, Limited (hereafter, Daiichi Sankyo) today announced that the U.S. Food and Drug Administration’s (FDA) Cardiovascular and Renal Drugs Advisory Committee voted 9 to 1 to recommend approval of once-daily Savaysa (edoxaban) 60 mg dosing regimen for the reduction in risk of stroke and systemic embolic events (SEE) in patients with non-valvular atrial fibrillation (NVAF). Members of the committee also provided their opinions on the use of Savaysa.

Monday, December 29, 2014

FDA Approves sNDA for Invega Sustenna (paliperidone palmitate) for Schizoaffective Disorder


Paliperidone2DACS.svg

We know that, Paliperidone (trade name Invega), also known as 9-hydroxyrisperidone, is a dopamine antagonist and 5-HT2A antagonist of the atypical antipsychotic class of medications. It is developed by Janssen Pharmaceutica. Invega is an extended release formulation of paliperidone that uses the OROS extended release system to allow for once-daily dosing.
Paliperidone palmitate (trade name Invega Sustenna, named Xeplion in Europe and other countries) is a long-acting injectable formulation of paliperidone palmitoyl ester indicated for once-monthly injection after an initial titration period. Paliperidone is used to treat mania and at lower doses as maintenance for bipolar disorder. It is also used for schizophrenia and schizoaffective disorder.


Janssen Pharmaceuticals, Inc. today announced that the U.S. Food and Drug Administration (FDA) approved the supplemental New Drug Applications (sNDAs) for the once-monthly atypical long-acting antipsychotic Invega Sustenna (paliperidone palmitate) to treat schizoaffective disorder as either monotherapy or adjunctive therapy. The symptoms of schizoaffective disorder are complex and, without treatment, disabling. The FDA approved these sNDAs under priority review, which is a designation for drugs that, if approved, would offer significant improvement in the treatment of serious conditions.

Friday, December 26, 2014

GABA injections prevent and reverse Type 1 diabetes in mice



Simplified structural formula


A chemical produced in the pancreas that prevented and even reversed Type 1 diabetes in mice had the same effect on human beta cells transplanted into mice, new research has found. GABA, or gamma-aminobutryic acid, is an amino acid produced by the same beta cells that make and secrete insulin. 

Drs. Gerald Prud'homme and Qinghua Wang of the Keenan Research Centre for Biomedical Sciences of St. Michael's Hospital published a paper in 2011 showing for the first time that GABA injections not only prevented Type 1 diabetes in mice, but even reversed the disease.
A new paper published (Nov. 29) in the December issue of Diabetes shows GABA does the same thing in mice who have been injected with human pancreatic cells.

Type 1 diabetes, formerly known as juvenile diabetes, is characterized by the immune system's destruction of the beta cells in the pancreas. As a result, the body makes little or no insulin. The only conventional treatment for Type 1 diabetes is insulin injection, but insulin is not a cure as it does not prevent or reverse the loss of beta cells.

Drs. Prud'homme and Wang also found that GABA vastly improved the survival rate of pancreatic cells when they were being transplanted into mice. About 70 per cent of pancreatic cells die between the time the organ is harvested and transplanted. The researchers said their finding could lead to future research specifically related to pancreatic transplants.

Thursday, December 25, 2014

Avanir Pharmaceuticals Announces Preliminary Feedback from the FDA on AVP-825 for the Acute Treatment of Migraine



Sumatriptan-CAS-103628-46-2


We know that, Sumatriptan is a synthetic drug belonging to the triptan class, used for the treatment of migraine headaches. Structurally, it is an analog of the naturally occurring neuro-active alkaloids dimethyltryptamine (DMT), bufotenine, and 5-methoxy-dimethyltryptamine, with an N-methyl sulfonamidomethyl- group at position C-5 on the indole ring

Now Avanir Pharmaceuticals, Inc. (NASDAQ: AVNR) today announced that the U.S. Food and Drug Administration (FDA) has issued preliminary written feedback to its New Drug Application (NDA) for AVP-825. AVP-825 is a drug-device combination product consisting of low-dose sumatriptan powder, delivered intranasally utilizing a novel Breath Powered delivery technology. The FDA has raised questions regarding the human factor validation study data submitted as part of the NDA. Human factor testing focuses on the interactions between people and devices. The goal of human factor testing is to evaluate use-related risks and confirm that users can use the device safely and effectively. Although the NDA review is ongoing, Avanir has concluded, at this time, that approval of AVP-825 may be unlikely by the PDUFA date of November, 26, 2014

Wednesday, December 24, 2014

Experimental anti-cancer drugs PF-04691502 and PD-0325901 excel against colorectal cancer models




Genes make proteins and proteins tell your body's cells what to do: one talks to the next, which talks to the next, and to the next. Like a game of telephone, researchers call these  "signaling pathways". Abnormalities in these signaling pathways can cause the growth and survival of cancer cells. Commonly, mutations or rearrangements of genes in the MAPK  signaling pathway create cancer's fast growth, and alterations in the PI3K signaling pathway allow cancer cells to survive into virtual immortality.

Of course, researchers have extensively targeted these two signaling pathways, designing drugs that turn on or off genes in these pathways, thus interrupting the transmission of cancer-causing signals. Unfortunately, these pathways have proven difficult to drug and also it has been difficult to show the effectiveness of drugs that successfully interrupt the transmission of signals along these pathways.

A study by the University of Colorado Cancer Center published in the journal PLoS ONE and concurrent phase I clinical trial is examining a new strategy: targeting both these important cancer-causing pathways simultaneously.

"Well, these two pathways are mutated frequently in cancer. Why not hit both of them? It was as simplistic as that," says Todd Pitts, MS, research instructor in the Program for the Evaluation of Targeted Therapies, and the study's first author.

The study used colorectal cancer tumors grown on mice from samples of patient tumors, called "patient-derived xenograft" models. To these tumors, Pitts and colleagues added the experimental anti-cancer drugs PF-04691502 (left structure) and PD-0325901 (right structure), the first of which mutes a link in the PI3K signaling pathway and the second of which mutes a link in the MAPK signaling pathway. In this case, the combination was greater than the sum of the parts - alone, PF-04691502 and PD-0325901 modestly inhibit the growth and survival of colorectal cancer in these models; after 30-day exposure to the combination, colorectal cancer cells were killed much more effectively than by either drug alone, and even more effectively than if you added together the cells killed by each drug alone.

Tuesday, December 23, 2014

Scientists devise powerful algorithm to improve effectiveness of research technology harnessing RNAi

In continuation of my update on RNAi

Scientists at Cold Spring Harbor Laboratory (CSHL) have devised a powerful algorithm that improves the effectiveness of an important research technology harnessing RNA interference, or RNAi.

Discovered in the late 1990s, RNAi is a naturally occurring biological mechanism in which short RNA molecules bind to and "interfere" with messages sent by genes that contain instructions for protein production. Such interference can prevent a gene from being expressed. In addition to helping regulate gene expression, the RNAi pathway in many species, including humans, acts to defend the genome from parasitic viruses and transposons.

Harnessed by scientists since the mid-2000s, RNAi has provided a way to artificially "knock down" the expression of specific genes. By preventing a gene or genes from being activated in a model organism such as a mouse, for instance, much can be learned by inference about gene function. RNAi-based technology also has been extremely useful as tool in drug discovery.

Monday, December 22, 2014

Researchers demonstrate efficacy of Bozepinib drug against cancerogenic stem cells





An Andalusian team of researchers led by the University of Granada has demonstrated the efficacy of a new drug against cancerogenic stem cells, which cause the onset and development of cancer, of relapse after chemotherapy and metastasis. This drug, called Bozepinib, has proved to be effective in tests with mice. The results have been published in the prestigious journal Oncotarget.

Cancerogenic stem cells appear in small quantities in tumours, and one of their important features is that they contribute to the formation of metastasis in different places within the original tumour. Cancerogenic stem cells remain dormant under normal conditions (i.e. they do not divide). Conventional chemotherapy and radiotherapy act upon those cancer cells which are clearly differentiated—i.e. which are undergoing processes of division—but they cannot destroy these dormant cancerogenic stem cells. Actually, after a positive initial response to treatment, many cancer patients suffer a relapse because these cancerogenic stem cells have not been destroyed.



Friday, December 19, 2014

Experimental drug works best when patients' immune cells surrounding tumors express PD-L1

A promising experimental immunotherapy drug works best in patients whose immune defenses initially rally to attack the cancer but then are stymied by a molecular brake that shuts down the response, according to a new study led by researchers at Dana-Farber Cancer Institute and the Yale University School of Medicine.

The antibody drug, known as MPDL3280A, inhibits the brake protein, PD-L1, reviving the response by immune killer T cells, which target and destroy the cancer cells. In recent clinical trials, the PD-L1 checkpoint blocker caused impressive shrinkage of kidney, melanoma, and lung tumors. But, as with other immunotherapy drugs, many patients saw no benefit.

Researchers report in the November 27 edition of Nature that the antibody was most effective when the patients' immune cells surrounding tumors expressed PD-L1 - a sign that a pre-existing immune response had been shut down by PD-L1. There was less tumor shrinkage in patients who never developed an immune response to the cancer - and, as a result, had less PD-L1 in the cancer and surrounding tissues.

"I think this is a launching point to use these findings as a predictive biomarker," said F. Stephen Hodi, MD, of Dana-Farber, senior author of the report. Hodi directs the Center for Immuno-Oncology and the Melanoma Treatment Center at Dana-Farber. First author is Roy Herbst, MD, PhD, chief of Medical Oncology at the Yale Comprehensive Cancer Center.

The scientists studied tumor tissue samples from 175 patients treated in clinical trials with MPDL3280A for advanced non-small cell lung cancer, melanoma, kidney cancer, and other cancers. On average, 18 percent of the patients had complete or partial shrinkage of their tumors, with higher or lower rates in different cancer types. Overall, the treatment was well-tolerated, with few severe side-effects, the report said.

Ref : http://meetinglibrary.asco.org/content/83740?media=vm

Thursday, December 18, 2014

Destroy Cancer Naturally in 40 Days

We know that, Tripterygium wilfordii, or léi gōng téng (Mandarin) (Chinese:雷公藤, Japanese: raikōtō), sometimes called thunder god vine but more properly translated thunder duke vine, is a vine used in traditional Chinese medicine for treatment of fever, chills, edema and carbuncle.
Tripterygium wilfordii recently has been investigated as a treatment for a variety of disorders including rheumatoid arthritis,cancer, chronic hepatitis, chronic nephritis, ankylosing pondylitis, polycystic kidney disease as well as several skin disorders. It is also under investigation for its apparent antifertility effects, which it is speculated, may provide a basis for a Male oral contraceptive. Now University of Minnesota Masonic Cancer Center, researchers have reported that, ancient Chinese medicine is bringing renewed hope to cancer sufferers, all thanks to an herb called thunder god vine. For starters, this herb may make it possible to purge tumors from the body without resorting to chemotherapy or other intense interventions.

Tripterygium regelii 1.JPG

On top of that, early evidence shows thunder god vine could be particularly effective in hindering the growth of pancreatic, colorectal, and ovarian cancers, among others.

Destroy Cancer Naturally in 40 Days | Cancer Defeated

Wednesday, December 17, 2014

Visualizing DNA double-strand break process for the first time



Scientists from the Spanish National Cancer Research Centre (CNIO), led by Guillermo Montoya, have developed a method for producing biological crystals that has allowed scientists to observe  for the first time-- DNA double chain breaks. They have also developed a computer simulation that makes this process, which lasts in the order of millionths of a second, visible to the human eye. The study is published today by the journalNature Structural & Molecular Biology.








"We knew that enzymes, or proteins, endonucleases, are responsible for these double strand breaks, but we didn't know exactly how it worked until now," said Montoya. "In our study, we describe in detail the dynamics of this basic biological reaction mediated by the enzyme I-Dmol. Our observations can be extrapolated to many other families of endonucleases that behave identically."


DNA breaks occur in several natural processes that are vital for life: mutagenesis, synthesis, recombination and repair. In the molecular biology field, they can also be generated synthetically. Once the exact mechanism that produces these breaks has been uncovered, this knowledge can be used in multiple biotechnological applications: from the correction of mutations to treat rare and genetic diseases, to the development of genetically modified organisms.
Slow-motion reaction
Enzymes are highly specialised dynamic systems. Their nicking function could be compared, said Montoya, to a specially designed fabric-cutting machine that "it would only make a cut when a piece of clothing with a specific combination of colours passed under the blade."
In this case, researchers concentrated on observing the conformational changes that occurred in the I-Dmol active site; the area that contains the amino acids that act as a blade and produces DNA breaks.
By altering the temperature and pH balance, the CNIO team has managed to delay a chemical reaction that typically occurs in microseconds by up to ten days. Under those conditions, they have created a slow-motion film of the whole process.
"By introducing a magnesium cation we were able to trigger the enzyme reaction and subsequently to produce biological crystals and freeze them at -200ºC," said Montoya. "In that way, we were able to collect up to 185 crystal structures that represent all of the conformational changes taking place at each step of the reaction."
Finally, using computational analysis, the researchers illustrated the seven intermediate stages of the DNA chain separation process. "It is very exciting, because the elucidation of this mechanism will give us the information we need to redesign these enzymes and provide precise molecular scissors, which are essential tools for modifying the genome," he concluded.

Tuesday, December 16, 2014

New treatment for marfan syndrome shows promise

Skeletal formula
In continuation of my update on Losartan

The results are being presented Nov. 18 at the American Heart Association's annual meeting in Chicago and will appear online the same day in The New England Journal of Medicine.
"For years, standard medical therapy for Marfan syndrome consisted of giving patients beta blockers, which lower heart rate and blood pressure, reducing stress on the wall of the aorta," said study co-author Alan C. Braverman, MD, a cardiologist at Washington University School of Medicine in St. Louis. "This new study suggests that we have a second option for patients that appears to be as effective as standard treatment."
The second option is Losartan (see above structure) , an angiotensin receptor blocker. Past research in mice and smaller clinical trials suggested that this class of drugs might actually be superior to beta blocker treatment for Marfan syndrome. Angiotensin receptor blockers commonly are prescribed to treat high blood pressure.
People with Marfan syndrome have weak connective tissues and tend to develop unusually long arms, legs and fingers. In addition to heart problems, patients often develop problems with the eyes, lungs, bones and joints. Patients with the condition are at high risk of sudden death from a tear in the aorta, also called an aortic dissection.
Though there is no cure for Marfan syndrome, treatment with beta blockers and preventive surgery to replace the section of the aorta adjacent to the heart has increased lifespan to near normal. But physicians have continued to look for more effective therapies, especially since some patients on beta blockers experience side effects such as tiredness and nausea.
So investigators in the Pediatric Heart Network of the National Institutes of Health (NIH), including Braverman and senior author Ronald V. Lacro, MD, a cardiologist at Harvard Medical School and Boston Children's Hospital, conducted a clinical trial comparing the beta blocker Atenolol with Losartan.
The study included 608 patients with Marfan syndrome at 21 medical centers nationwide. Patients were ages 6 months to 25 years and had enlarged aortas. Half of these participants were randomly given Losartan, the investigational treatment, and the other half received Atenolol, the standard therapy, but in higher doses than physicians typically prescribe to see if this would increase the beta blocker's effectiveness.
After following participants for three years, the investigators reported no differences between the two groups in the growth rate of the aorta. They further observed similar rates of tears in the aorta, similar numbers of surgeries required to repair these tears and no difference in the number of deaths between the two groups.

Monday, December 15, 2014

New treatment for marfan syndrome shows promise

The results are being presented Nov. 18 at the American Heart Association's annual meeting in Chicago and will appear online the same day in The New England Journal of Medicine.
"For years, standard medical therapy for Marfan syndrome consisted of giving patients beta blockers, which lower heart rate and blood pressure, reducing stress on the wall of the aorta," said study co-author Alan C. Braverman, MD, a cardiologist at Washington University School of Medicine in St. Louis. "This new study suggests that we have a second option for patients that appears to be as effective as standard treatment."
The second option is Losartan, an angiotensin receptor blocker. Past research in mice and smaller clinical trials suggested that this class of drugs might actually be superior to beta blocker treatment for Marfan syndrome. Angiotensin receptor blockers commonly are prescribed to treat high blood pressure.
People with Marfan syndrome have weak connective tissues and tend to develop unusually long arms, legs and fingers. In addition to heart problems, patients often develop problems with the eyes, lungs, bones and joints. Patients with the condition are at high risk of sudden death from a tear in the aorta, also called an aortic dissection.
Though there is no cure for Marfan syndrome, treatment with beta blockers and preventive surgery to replace the section of the aorta adjacent to the heart has increased lifespan to near normal. But physicians have continued to look for more effective therapies, especially since some patients on beta blockers experience side effects such as tiredness and nausea.
So investigators in the Pediatric Heart Network of the National Institutes of Health (NIH), including Braverman and senior author Ronald V. Lacro, MD, a cardiologist at Harvard Medical School and Boston Children's Hospital, conducted a clinical trial comparing the beta blocker Atenolol with Losartan.
The study included 608 patients with Marfan syndrome at 21 medical centers nationwide. Patients were ages 6 months to 25 years and had enlarged aortas. Half of these participants were randomly given Losartan, the investigational treatment, and the other half received Atenolol, the standard therapy, but in higher doses than physicians typically prescribe to see if this would increase the beta blocker's effectiveness.
After following participants for three years, the investigators reported no differences between the two groups in the growth rate of the aorta. They further observed similar rates of tears in the aorta, similar numbers of surgeries required to repair these tears and no difference in the number of deaths between the two groups.

Friday, December 12, 2014

Chemical compound in coffee may help prevent damaging effects of obesity



Chlorogenic acid
In continuation of my update on chlorogenic acid

Researchers at the University of Georgia have discovered that a chemical compound commonly found in coffee may help prevent some of the damaging effects of obesity.

In a paper published recently in Pharmaceutical Research, scientists found that chlorogenic acid, or CGA, significantly reduced insulin resistance and accumulation of fat in the livers of mice who were fed a high-fat diet.

"Previous studies have shown that coffee consumption may lower the risk for chronic diseases like Type 2 diabetes and cardiovascular disease," said Yongjie Ma, a postdoctoral research associate in UGA's College of Pharmacy and lead author of the paper. "Our study expands on this research by looking at the benefits associated with this specific compound, which is found in great abundance in coffee, but also in other fruits and vegetables like apples, pears, tomatoes and blueberries."

During the past 20 years, there has been a dramatic increase in obesity in the United States. More than one-third of U.S. adults and approximately 17 percent of children are obese, according to the Centers for Disease Control and Prevention, and the annual medical cost of obesity is more than $147 billion.

Aside from weight gain, two common side effects of obesity are increased insulin resistance and the accumulation of fat in the liver. Left untreated, these disorders can lead to diabetes and poor liver function.

To test the therapeutic effects of CGA, researchers fed a group of mice a high-fat diet for 15 weeks while also injecting them with a CGA solution twice per week.

Thursday, December 11, 2014

Cholesterol-fighting statins inhibit uterine fibroid tumors that account for 50% of hysterectomies...



Simvastatin.svg


In continuation of my update on simvastatin

Researchers at the University of Texas Medical Branch at Galveston, in collaboration with The University of Texas Health Science Center at Houston (UTHealth), Baylor College of Medicine and the Georgia Regents University, report for the first time that the cholesterol-lowering drug simvastatin inhibits the growth of human uterine fibroid tumors. These new data are published online and scheduled to appear in the January print edition of the Journal of Biological Chemistry.

Statins, such as simvastatin, are commonly prescribed to lower high cholesterol levels. Statins work by blocking an early step in cholesterol production.

Beyond these well-known cholesterol-lowering abilities, statins also combat certain tumors. Statins have previously been shown to have anti-tumor effects on breast, ovarian, prostate, colon, leukemia and lung cancers. The effect of statins on uterine fibroids was unknown.
"Non-cancerous uterine fibroids are the most common type of tumor in the female reproductive system, accounting for half of the 600,000 hysterectomies done annually in the U.S. Their estimated annual cost is up to $34 billion in the U.S. alone," said UTMB's Dr. Mostafa Borahay, assistant professor in the department of obstetrics and gynecology and lead author. "Despite this, the exact cause of these tumors is not well understood, as there are several genetic, familial and hormonal abnormalities linked with their development."

Saturday, December 6, 2014

Curcumin and tackling mesothelioma: an interview with Dr. Afshin Dowlati



Skeletal formula Skeletal formula





In continuation of my update on Curcumin





Dr. Afshin DowlatiTHOUGHT LEADERS SERIES...insight from the world’s leading experts

Research focusing on mesothelioma













Curcumin and tackling mesothelioma: an interview with Dr. Afshin Dowlati

Friday, December 5, 2014

Chemotherapy drug combined with cancer-killing virus may treat recurrent ovarian cancer



Doxorubicin2DCSD.svg


In continuation of my update on doxorubicin

In six out of 10 cases, ovarian cancer is diagnosed when the disease is advanced and five-year survival is only 27 percent. A new study suggests that a cancer-killing virus combined with a chemotherapy drug might safely and effectively treat advanced or recurrent forms of the disease.

Researchers at The Ohio State University Comprehensive Cancer Center - Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC - James), led the cell and animal study. Reporting in the journal Clinical Cancer Research, the researchers showed that the oncolytic virus called 34.5ENVE has significant antitumor activity against ovarian cancer on its own, and that its activity is even greater when combined with the chemotherapy drug doxorubicin in an animal model of disseminated peritoneal ovarian cancer.

"Our findings suggest that this could be a promising therapy, and we believe it should be further developed for the treatment of recurrent or refractory ovarian cancer in humans," says principal investigator Balveen Kaur, PhD, professor of neurological surgery and an OSUCCC - James researcher.

Among women treated for ovarian cancer whose tumors regress, 70 percent experience recurrence. The recurrent tumors are thought to develop from reserves of cancer stem-like cells that are chemotherapy-resistant and survive therapy. Consequently, recurrent tumors also tend to be resistant to primary chemotherapy regimens, and lethal.

The oncolytic herpes simplex virus 34.5ENVE is engineered to target cancer cells that overexpress the protein nestin and to inhibit the growth of blood vessels to tumors.

Thursday, December 4, 2014

Cornerstone's CPI-613 drug candidate chosen as 2014 Top 10 Most Interesting Oncology Projects to Watch


We know that, CPI-613: CPI-613  is a racemic mixture of the enantiomers of a synthetic alpha-lipoic lipoic acid analogue with potential chemopreventive and antineoplastic activities. Although the exact mechanism of action is unknown, alpha-lipoic acid analogue CPI-613 has been shown to inhibit metabolic and regulatory processes required for cell growth in solid tumors. Both enantiomers in the racemic mixture exhibit antineoplastic activity. The mechanism-of-action of CPI-613 appears distinct from the current classes of anti-cancer agents used in the clinic. CPI-613 demonstrates both in vitro and in vivo anti-tumor activity.CPI-613 was known to strongly disrupt tumor mitochondrial metabolism. CPI-613 disruption of tumor mitochondrial metabolism is followed by efficient commitment to cell death by multiple, apparently redundant pathways, including apoptosis, in all tested cancer cell lines. Further, CPI-613 shows strong antitumor activity in vivo against human non-small cell lung and pancreatic cancers in xenograft models with low side-effect toxicity. Check for active clinical trials or closed clinical trials using this agent. (NCI Thesaurus). (last updated: 10/30/2014)

Now...........
Cornerstone Pharmaceuticals, Inc., a development stage company and leader in the growing field of cancer metabolism-based therapeutics, today announced that its lead compound CPI-613 has been chosen by Informa and Kantar Health as one of the 2014 Top 10 Most Interesting Oncology Projects to Watch.

Steve Carchedi, Chief Executive Officer of Cornerstone Pharmaceuticals, will present at Informa’s Therapeutic Area Partnerships meeting, taking place November 19-21, 2014 at the Hyatt Regency in Boston. Mr. Carchedi’s presentation will occur at 11:00 a.m. on November 20 within Track 3 (Oncology).

During the presentation, Mr. Carchedi will discuss differentiators of Cornerstone’s lead Altered Energy Metabolism Directed (AEMD) drug candidate, CPI-613, which is a first-in-class anticancer compound designed to disrupt the altered energy-production pathways in cancer cells by targeting mitochondrial metabolism.


Cornerstone's CPI-613 drug candidate chosen as 2014 Top 10 Most Interesting Oncology Projects to Watch


Wednesday, December 3, 2014

Alzheimer's drug may reduce addictive and impulsive behavior associated with binge eating

In continuation of my update on Memantine

Memantine.svg
The Alzheimer's drug memantine may perform double-duty helping binge eaters control their compulsion. Researchers have demonstrated that memantine, a neuroprotective drug, may reduce the addictive and impulsive behavior associated with binge eating.

The Boston University School of Medicine (BUSM) study, which appears online inNeuopsychopharmacology, also found that a specific area in the brain, the nucleus accumbens, which is responsible for addictive behaviors, facilitates the effects of memantine.
Binge-eating disorder is a prevalent illness in America, affecting more than 10 million people. It is characterized by periods of excessive uncontrolled consumption of food, followed by uncomfortable fullness and feelings of self-disgust. New evidence indicates that changes in brain chemistry reflecting the addictive nature of binge eating may parallel drug and alcohol addiction.

Using an experimental model to simulate binge-eating behavior, researchers were able to identify the area of the brain associated with binge-eating and then suppress the behavior by applying memantine directly into that area.

"We found that memantine, which blocks glutamate NMDA receptors, blocks binge eating of junk food, blocks the strength of cues associated with junk food and blocks the compulsivity associated with binge eating," explained senior author Pietro Cottone, PhD, an associate professor of pharmacology and psychiatry at BUSM and co-director of the Laboratory of Addictive Disorders.

This research opens new avenues for binge eating treatment especially since memantine is a drug already approved for other indications. "Individuals with binge eating disorder have a very poor quality of life and decreased lifespan. Our study gives a better understanding of the underpinning neurobiological mechanisms of the disorder," added coauthor Valentina Sabino, PhD, assistant professor of pharmacology and psychiatry at BUSM and co-director of the Laboratory of Addictive Disorders.


Alzheimer's drug may reduce addictive and impulsive behavior associated with binge eating






Tuesday, December 2, 2014

Oxytocin hormone inhibits fear center in brain, shows study

In continuation of my update on oxytocin...

Frightening experiences do not quickly fade from memory. A team of researchers under the guidance of the University of Bonn Hospital has now been able to demonstrate in a study that the bonding hormone oxytocin inhibits the fear center in the brain and allows fear stimuli to subside more easily. This basic research could also usher in a new era in the treatment of anxiety disorders. The study has already appeared in advance online in the journal "Biological Psychiatry". The print edition will be available in a few weeks.

Significant fear becomes deeply entrenched in memory. Following a car accident, for example, it is difficult to manage street traffic once again - even screeching tires can evoke significant anxiety. Scientists refer to this as "conditioning". Certain images or noises are very closely intertwined in the brain with the experience of pain or fear. Only gradually does one learn that not every screeching tire means danger. This active overwriting in the memory is known as "extinction". "In this process, however, the original contents of the memory are not erased but instead merely overlaid with positive experiences," explains Prof. Dr. Dr. René Hurlemann from the Department of Psychiatry and Psychotherapy of the University of Bonn Hospital. If there are dangerous situations once again, the fear, which was believed to have been already overcome, frequently flares up once more.

Extinction is often used in therapy for anxiety disorders. For example, a person suffering from a spider phobia will gradually and increasingly come face to face with spiders. First the patient has to view photos of spiders and then look at living examples until finally he holds a tarantula in his hand. When people with an anxiety disorder experience as frequently as possible the fact that they do not need to fear the trigger, their fear is reduced. "However, this can take a very long time, because this confrontation with the fearful situation frequently has to be experienced. In addition, there may be relapses because the original trace of fear is still anchored in the memory," reports Prof. Hurlemann. This is why therapists seek a possibility for "overwriting" the fearful memory in a faster and longer-lasting way.

Monday, December 1, 2014

New anti-cancer drug may protect normal cells against radiation





Although radiation treatments have become much more refined in recent years, it remains a challenge to both sufficiently dose the tumor while sparing the surrounding tissue. A new anti-cancer drug, already in clinical development, may help address this issue by protecting normal cells - but not the cancer - from the effects of radiation. The research, published November 14th in Molecular Cancer Therapeutics, further suggests this drug may also be useful in treating accidental exposure to radiation.

"It was a stroke of luck that the drug that most effectively protected normal cells and tissues against radiation also has anti-cancer properties, thus potentially increasing the therapeutic index of radiation therapy," says Ulrich Rodeck, M.D., Ph.D., Professor of Dermatology and Cutaneous Biology and Radiation Oncology at Thomas Jefferson University, and senior author on the study.

Together with first author Vitali Alexeev, Ph.D., Assistant Professor, Dermatology and Cutaneous Biology, Dr. Rodeck and colleagues tested five compounds that were shown to have radiation-protective properties in earlier studies. The researchers gave the mice one of the five compounds a day before and for several days after radiation treatment. A compound called RTA 408 emerged from this screen as a robust radiation protector and its effect was comparable to the only drug currently approved by the FDA for that purpose. (The approved drug, called amifostine, however, has a number side effects including severe nausea or vomiting that make it an unappealing choice for clinicians.) Sites that are usually most susceptible to radiation damage including the gut and blood cells in the bone marrow were both protected in mice treated with RTA 408.
Ref : http://mct.aacrjournals.org/content/early/2014/11/12/1535-7163.MCT-14-0354.abstract?sid=22fc8faf-65af-4c60-8a08-265701e2f6ad