Friday, November 10, 2017

'Intelligent' nanoparticles could help treat cancer patients




Scientists from the University of Surrey have developed 'intelligent'  nanoparticles which heat up to a temperature high enough to kill  cancerous cells - but which then self-regulate and lose heat before they get hot enough to harm healthy tissue.
The self-stopping nanoparticles could soon be used as part of  hyperthermic-thermotherapy to treat patients with cancer, according to  an exciting new study reported in Nanoscale. Thermotherapy has long been used as a treatment method for cancer, but it is difficult to treat patients without damaging healthy cells. However, tumor cells can be weakened or killed without affecting normal tissue if temperatures can be controlled accurately within a range of 42°C to 45 °C.
This could potentially be a game changer in the way we treat people who have cancer . If we can keep cancer treatment sat at a temperature level high enough to kill the cancer, while low enough to stop harming healthy tissue, it will prevent some of the serious side effects of vital treatment.
It's a very exciting development which, once again, shows that the University of Surrey research is at the forefront of nanotechnologies - whether in the field of energy materials or, in this case, healthcare. Dr. Wei Zhang, Associate Professor from Dalian University of Technology said Magnetic induced hyperthermia is a traditional route of treating  malignant tumors. However, the difficulties in temperature control has significantly restricted its usage If we can modulate the magnetic  properties of the nanoparticles, the therapeutic temperature can be  self-regulated, eliminating the use of clumsy temperature monitoring and controlling systems.
By making magnetic materials with the Curie temperature falling in the range of hyperthermia temperatures, the self-regulation of therapeutics can be achieved. For the most magnetic materials, however,  the Curie temperature is much higher than the human body can endure. By  adjusting the components as we have, we have synthesized the nanoparticles with the Curie temperature as low as 34 °C. This is a major nanomaterials breakthrough.

Ref:

Thursday, November 9, 2017

FDA Approves Once-Weekly Bydureon BCise (exenatide) for Patients with Type-2 Diabetes








 In continuation of my update on exenatide. AstraZeneca announced that the US Food and Drug Administration (FDA) has approved Bydureon® BCise™ (exenatide extended-release) injectable suspension, a new formulation of Bydureon (exenatide extended-release) injectable suspension in an improved once-weekly, single-dose autoinjector device for adults with type-2 diabeteswhose blood sugar remains uncontrolled on one or more oral medicines inaddition to diet and exercise, to improve glycemic control.

Unlike other glucagon-like peptide-1 (GLP-1) receptor agonists, Bydureon BCise has a unique, continuous-release microsphere delivery system designed to provide consistent therapeutic levels of the active ingredient, exenatide, to help patients reach and maintain steady state. The new formulation in the innovative Bydureon BCise device is proven to reduce blood sugar levels, with the added benefit of weight loss, although not a weight loss medicine.

Across two clinical trials, average HbA1c reductions of up to 1.4% and average weight loss of up to 3.1 pounds were achieved when used as  monotherapy or as an add-on to metformin, a sulfonylurea, a thiazolidinedione, or any combination of two of these oral anti-diabetic medicines at 28 weeks. The most common adverse reactions reported in ≥5% of patients in clinical trials were nausea (8.2%) and adverse events associated with injection-s te nodules (10.5%).

Bydureon BCise is designed for ease and patient convenience in a once-weekly, pre-filled device with a pre-attached hidden needle. The medication is administered in three simple steps – mix, unlock, inject.

Tuesday, November 7, 2017

New molecule could become first treatment against chemotherapy-induced neuropathy


IDIBELL Researchers of the Neuro-Oncology Unit of Bellvitge University Hospital - Catalan Institute of Oncology, led by Dr. Jordi Bruna, have successfully tested a new molecule capable of preventing the development of peripheral neuropathy induced by chemotherapy in cancer patients, especially in colon cancer cases, the third most common neoplasm in the world. The molecule, which has a completely novel mechanism of action, would be the first treatment against this neurological complication, for which no effective treatment has yet been approved.

One of the main adverse effects of certain chemotherapeutics used in the treatment of cancers is peripheral neuropathy, which can cause tingling, numbness, pain or alterations in the functionality of patients, among others. This complication, so far, has been regarded as a "price to pay" despite having a demonstrated negative impact on the quality of life of the patient, increasing their care expenses and often preventing the complete and effective administration of the cytostatic treatment, with the potential decrease of survival chances that entails.

Researchers at the HUB-ICO-IDIBELL Unit identified a new molecule - developed by the Catalan laboratory Esteve - as a candidate to prevent  the onset of this adverse effect. "Through a public-private partnership, we have been able to design a Phase 2b clinical trial (randomized with placebo), which has allowed us to get a great deal of scientific information - effect on pain, pathophysiology - and draw conclusions as to the potential of the drug in the prevention of neuropathies during cytostatic treatment", explains Dr. Bruna, who led the trial.

The results of the study prove a decrease in the appearance of disorders associated with nerve dysfunction in those cancer patients who took the new drug. "When the trial was designed, safety data from the previous trials limited the duration of treatment with the new molecule and this meant that we had to work at low doses in relation to the duration of the chemotherapy treatment, but we have nevertheless obtained positive results and now we have enough information to be able to extend the duration of the treatment. Therefore, we hope to obtain even more satisfactory results" the IDIBELL researcher comments.

"Given the usual pace of clinical trials and drug agencies following fast-track approval processes in severe or orphan pathologies, this new drug could potentially reach the market soon, since it would be the first available treatment to avoid this type of neuropathy. In addition,  it has other medical uses as a non-opioid analgesic", adds Bruna. In any case, improving pain control and reducing the occurrence of severe neuropathy is undoubtedly the most prominent benefit of the development of this novel drug.


Monday, November 6, 2017

Yoga can be beneficial to people with lung cancer and their caregivers


In a feasibility trial of people with advanced lung cancer receiving radiation therapy, and their caregivers, yoga was beneficial to both parties. These findings will be presented at the upcoming 2017 Palliative and Supportive Care in Oncology Symposium in San Diego, California.
"It is never too late to engage in exercise, and we know from earlier studies that people can exercise while being treated with chemotherapy or radiation," said lead study author, Kathrin Milbury, PhD, an assistant professor of cancer medicine in the Department of Palliative Care and Rehabilitation Medicine, University of Texas MD Anderson Cancer Center in Houston, Texas. "Caregivers sometimes have more anxiety and sleeping problems than patients. Therefore, we thought that having the patient and caregiver go through yoga instruction together would be beneficial for both partners."

Prior research showed that women with breast cancer benefit from an exercise regimen. Because people with lung cancer  usually have more symptoms, are older, and in worse physical shape than women with breast cancer, researchers believed yoga was a low-impact exercise that patients could perform easily. Additionally, yoga has a strong emphasis on breathing, an important issue for people with lung
cancer who often have shortness of breath.

"Choosing yoga as the form of exercise to use in this study was important because it is a gentle form of exercise readily modifiable for patients' needs, and it easily allowed for partners to participate in the yoga practices," said Dr. Milbury. "Among the yoga poses we chose to include in this study are what are known as chest openers - exercises that emphasize stretching the chest area along with deep breathing."


Friday, November 3, 2017

FDA Approves Ascor (Ascorbic Acid Injection, USP) for the Treatment of Scurvy

McGuff Pharmaceuticals, Inc., a wholly owned subsidiary of McGuffCompany, Inc. announces the United States Food and Drug Administration’s New Drug Approval (NDA) of Ascor (Ascorbic Acid Injection, USP). Ascor is provided in a 50 mL vial labeled as a Pharmacy Bulk Package with a strength of 500mg/mL.

Ascor is vitamin C indicated for the short term (up to 1 week) treatment of scurvy in adult and pediatric patients age 5 months and older for whom oral administration is not possible, insufficient or contraindicated.

Ascor is the first single moiety ascorbic acid drug approved for the US market and is the result of a multi-year development effort.

Ronald McGuff, CEO said "The FDA approval of Ascor Ascorbic Acid
Injection USP will allow McGuff Pharmaceuticals, Inc. to deliver this
medically necessary drug to US hospitals and pharmacies to improve
patient health. In addition, McGuff Pharmaceuticals, Inc. currently
holds Ascorbic Acid Injection USP approvals in multiple other
countries."

Thursday, November 2, 2017

FDA Approves Verzenio (abemaciclib) for Certain Advanced or Metastatic Breast Cancers



 VERZENIO™ (abemaciclib) - Structural Formula Illustration

We know that, Abemaciclib is a kinase inhibitor for oraladministration. It is a white to  yellow powder with the empirical formula C27H32F2N8
and a molecular weight 506.59.

The chemical name for abemaciclib is 2-Pyrimidinamine,
N-[5-[(4-ethyl-1-piperazinyl)methyl]-2-pyridinyl]-5-fluoro-4-[4fluoro-2-methyl-1-(1-methylethyl)-1H-benzimidazol-6-yl]-Abemaciclib  has the above  structure:

The U.S. Food and Drug Administration today approved Verzenio (abemaciclib) to treat adult patients who have hormone receptor (HR)-positive, human epidermal growth factor receptor 2 (HER2)-negativeadvanced or metastatic breast cancer that has progressed after taking therapy that alters a patient’s hormones (endocrine therapy). Verzeniois approved to be given in combination with an endocrine therapy, called fulvestrant, after the cancer had grown on endocrine therapy. It isalso approved to be given on its own, if patients were previously treated with endocrine therapy and chemotherapy after the cancer hadspread (metastasized).

"Verzenio provides a new targeted treatment option for certain patients with breast cancer who are not responding to treatment, and unlike other drugs in the class, it can be given as a stand-alonetreatment to patients who were previously treated with endocrine therapy and chemotherapy," said Richard Pazdur, M.D., director of the FDA’s Oncology Center of Excellence and acting director of the Office of Hematology and Oncology Products in the FDA’s Center for Drug Evaluation and Research.


Friday, October 27, 2017

Dietary supplement could be promising therapeutic target for seizure disorders

We know that, Glucosamine  is an amino sugar and a prominent precursor in the biochemical synthesis of glycosylated proteins and lipids. Glucosamine is part of the structure of the polysaccharides chitosan and chitin, which compose the exoskeletons of crustaceans and other arthropods, as well as the cell walls of fungiand many higher organisms. Glucosamine is one of the most abundant monosaccharides.

Stereo structural formula of glucosamine ((2S,6R)-6-meth,-2-ol)


Seizure disorders -- including epilepsy are associated with pathological hyperexcitability in brain neurons. Unfortunately, there are limited available treatments that can prevent this hyperexcitability. However, University of Alabama at Birmingham researchers have found that inducing a biochemical alteration in brain proteins via the dietary supplement glucosamine was able to rapidly dampen that pathological hyperexcitability in rat and mouse models.
These results represent a potentially novel therapeutic target for the treatment of seizure disorders, and they show the need to better understand the physiology underlying these neural and brain circuit changes.
Proteins are the workhorses of living cells, and their activities are tightly and rapidly regulated in responses to changing conditions. Adding or removing a phosphoryl group to proteins is a well-known regulator for many proteins, and it is estimated that human proteins may have as many as 230,000 sites for phosphorylation.
A lesser-known regulation comes from the addition or removal of N-acetylglucosamine to proteins, which is usually controlled by glucose, the primary fuel for neurons. Several years ago, neuroscientist Lori McMahon, Ph.D., professor of cell, developmental and integrative biology at UAB, found out from her colleague John Chatham, D.Phil., a UAB professor of pathology and a cardiac physiologist, that brain cells had the second-highest amounts of proteins with N-acetylglucosamine, or O-GlcNAcylation, in the body.
At the time, very little was known about how O-GlcNAcylation might affect brain function, so McMahon and Chatham started working together. In 2014, McMahon and Chatham, in a study led by graduate student Erica Taylor and colleagues, reported that acute increases in protein O-GlcNAcylation caused long-term synaptic depression, a reduction in neuronal synaptic strength, in the hippocampus of the brain. This was the first time acute changes in O-GlcNAcylation of neuronal proteins were shown to directly change synaptic function.
Since neural excitability in the hippocampus is a key feature of seizures and epilepsy, they hypothesized that acutely increasing protein O-GlcNAcylation might dampen the pathological hyperexcitability associated with these brain disorders.
That turned out to be the case, as reported in the Journal of Neuroscience study, "Acute increases in protein O-GlcNAcylation dampen epileptiform activity in hippocampus." The study was led by corresponding author McMahon and first author Luke Stewart, a doctoral student in the Neuroscience Theme of the Graduate Biomedical Sciences Program. Stewart is co-mentored by McMahon and Chatham.
"Our findings support the conclusion that protein O-GlcNAcylation is a regulator of neuronal excitability, and it represents a promising target for further research on seizure disorder therapeutics," they wrote in their research significance statement. The researchers caution that the mechanism underlying the dampening is likely to be complex.
Research details
Glucose, the major fuel for neurons, also controls the levels of protein O-GlcNAcylation on proteins. However, high levels of the dietary supplement glucosamine, or an inhibitor of the enzyme that removes O-GlcNAcylation, leads to rapid increases in O-GlcNAc levels.
In experiments with hippocampal brain slices treated to induce a stable and ongoing hyperexcitability, UAB researchers found that an acute increase in protein O-GlcNAcylation significantly decreased the sudden bursts of electrical activity known as epileptiform activity in area CA1 of the hippocampus. An increased protein O-GlcNAcylation in normal cells also protected against a later induction of drug-induced hyperexcitability.
The effects were seen in slices treated with both glucosamine and an inhibitor of the enzyme that removes O-GlcNAc groups. They also found that treatment with glucosamine alone for as short a time as 10 minutes was able to dampen ongoing drug-induced hyperexcitability.
In common with the long-term synaptic depression provoked by increased O-GlcNAcylation, the dampening of hyperexcitability required the GluA2 subunit of the AMPA receptor, which is a glutamate-gated ion channel responsible for fast synaptic transmission in the brain. This finding suggested a conserved mechanism for the two changes provoked by increased O-GlcNAcylation -- synaptic depression and dampening of hyperexcitability.
The researchers also found that the spontaneous firing of pyramidal neurons in another region of hippocampus, area CA3, was reduced by increased O-GlcNAcylation in normal brain slices and in slices with drug-induced hyperexcitability. This reduction in spontaneous firing of CA3 pyramidal neurons likely contributes to decreased hyperexcitability in area CA1 since the CA3 neurons directly excite those in CA1.
Similar to the findings for brain slices, mice that were treated to increase O-GlcNAcylation before getting drug-induced hyperexcitability had fewer of the brain activity spikes associated with epilepsy that are called interictal spikes. Several drug-induced hyperexcitable mice had convulsive seizures during the experiments -- this occurred in both the increased O-GlcNAcylation mice and the control mice. Brain activity during the seizures differed between these two groups: The peak power of the brain activity for the mice with increased O-GlcNAcylation occurred at a lower frequency, as compared with the control mice. 

Ref : http://www.uab.edu/news/innovation/item/8796?utm_source=eurekaalert&utm_medium=referral&utm_campaign=&utm_content=

Monday, October 16, 2017

Flexion Therapeutics Announces FDA Approval of Zilretta (triamcinolone acetonide extended-release injectable suspension) for Osteoarthritis Knee Pain

In continuation of my update on Zilretta 

Triamcinolone acetonide.png

Flexion Therapeutics, Inc. announced,  that  Food and Drug Administration (FDA) approved Zilretta (triamcinolone acetonide extended-release injectable suspension), the first and only extended-release, intra-articular injection for osteoarthritis knee pain. Zilretta is a non-opioid medicine that employs Flexion's proprietary microsphere technology to provide proven pain relief over 12 weeks.

"The approval of Zilretta marks a major advancement in the treatment landscape for managing OA knee pain," said Michael Clayman, M.D., President and Chief Executive Officer of Flexion. "It comes at a time when our society is in urgent need of non-addictive therapies to help the millions of Americans who suffer from this condition." Dr. Clayman added, "We believe that Zilretta has the potential to be a transformative medicine for the more than five million patients who receive an intra-articular injection for OA knee pain each year."
The FDA approval of Zilretta is based upon data from Flexion's pivotal Phase 3 clinical trial. The randomized, double-blind study enrolled 484 patients at 37 centers worldwide.
Commenting on the approval, Andrew Spitzer, M.D., Co-Director, Joint Replacement Program, Cedars-Sinai Orthopaedic Center, said, "OA knee pain presents a host of challenges for patients and clinicians alike, and there has been very little innovation in this area in recent years. Zilretta is a groundbreaking new therapy, providing clinically meaningful pain relief with a safety profile that is similar to saline."
Sometimes called degenerative joint disease or "wear and tear" arthritis, OA is a progressive and incurable condition and the most common form of arthritis. Its effects may range from intermittent discomfort to the loss of function and severe chronic pain associated with irreversible structural damage.
"As OA progresses, many patients experience intractable joint pain, which can ultimately lead to the need for a total joint replacement," said John Richmond, M.D., Medical Director for Network Development, New England Baptist Hospital. "As a result, healthcare providers are eager for new, non-opioid therapies that may help patients manage their OA pain for extended periods of time. Zilretta gives us an important new non-surgical intervention."
Zilretta's label also includes the results from a double-blind, randomized, parallel-group trial, which examined blood glucose concentrations in patients with type 2 diabetes.
Steven Russell, M.D., Ph.D., Assistant Professor of Medicine, Massachusetts General Hospital Diabetes Research Center, commented, "Our trial demonstrated that Zilretta may avoid the disruptive blood glucose spikes that can be seen with corticosteroid use in patients coping with both knee OA and type 2 diabetes. As a practicing diabetologist, I believe the availability of Zilretta will make intra-articular injection of glucocorticoid an attractive option for these patients."
The pain from OA of the knee can have a profound impact on the people it afflicts, often resulting in a cascade of consequences, which patient advocates warn is only expected to grow.
According to Seth Ginsberg, President and Co-Founder of CreakyJoints®, a national patient advocacy organization for people with all forms of arthritis, "Despite common misperceptions, OA is not a disease that is limited to the elderly. In fact, the average age of knee OA diagnosis has decreased while the number of people diagnosed with OA of the knee has been steadily rising. That's why our community advocates for and welcomes new therapeutic options for people to consider in consultation with their doctor."
Flexion expects Zilretta will be available in the U.S. by the end of October. 
Ref :  www.Zilretta.com

Friday, October 13, 2017

FDA Approves Lyrica CR (pregabalin) Extended-Release Tablets for Neuropathic Pain Conditions

In continuation of my update on Pregabalin
Pfizer Inc.  announced today that the  Food and Drug Administration (FDA) has approved Lyrica CR (pregabalin) extended-release tablets CV as once-daily therapy for the management of neuropathic pain associated with diabetic peripheral neuropathy (pDPN) and the management of postherpetic neuralgia (PHN). Lyrica CR did not receive approval for the management of fibromyalgia.
Pregabalin.svg
“Lyrica CR was developed to offer patients an effective treatment option with the convenience of once-daily dosing,” said James M. Rusnak, MD, PhD, Chief Development Officer, Internal Medicine, Pfizer Global Product Development. “It provides an important option for patients and health care providers managing these often debilitating pain conditions.”
The efficacy and safety of Lyrica CR in PHN  was established in a randomized placebo-controlled clinical trial conducted in a total of 801 patients with PHN who entered single-blind treatment with Lyrica CR. As both pDPN and PHN are peripheral neuropathic pain conditions, the PHN data was supportive of both the pDPN and PHN indications. The randomized trial included a six-week single-blind, dose optimization phase followed by a 13-week double-blind phase. In the PHN study, 73.6 percent of patients in the Lyrica CR group achieved at least 50 percent improvement in pain intensity compared with 54.6 percent in the placebo group.
The most common adverse reactions reported with Lyrica CR were dizziness, somnolence, headache, fatigue, peripheral edema, nausea, blurred vision, dry mouth and weight gain.
Please see the full prescribing information and Medication Guide for Lyrica CR (pregabalin) extended-release tablets 
Ref :  http://www.pfizer.com/products/product-detail/lyrica

FDA Approves Lyrica CR (pregabalin) Extended-Release Tablets for Neuropathic Pain Conditions

Tuesday, September 26, 2017

Heparin promotes food intake and body weight gain in animal models

In continuation of my update on Heparin............................................
Heparin.svg

Heparin is a medication widely used to prevent blood clotting; it is named after and mimics the naturally occurring anticoagulant in the body. However, research published today in Cell Reports shows a novel role of heparin as a promoter of food intake and body weight increase in animal models. These results suggest that heparin could be a potential target for drugs regulating appetite and weight control.
"In addition to its role as an anticoagulant, heparin, which is normally produced by the body, has been known to affect other biological functions. In this study, we are among the first groups to investigate heparin's potential role in regulating the body's energy balance," said co-corresponding author Dr. Yong Xu, associate professor of pediatrics, and of molecular and cellular biology at Baylor College of Medicine.

Monday, September 25, 2017

Mild pain killer blocks action of key protein required for hearing


In continuation of my update on 'diflunisal'

Diflunisal structure.svg

A Rice University study has found that the aspirin-like drug diflunisal blocks the action of prestin, a key protein that is required for hearing.
The research, which is available online in the open-access journal PLOS ONE, stemmed from a 2015 Rice study that screened more than a half-dozen nonsteroidal anti-inflammatory drugs, or NSAIDs, for possible interactions with the protein prestin. Prestin is a highly specialized protein that drives the action of outer hair cells in the cochlea, an inner-ear organ that allows people and animals to hear.
"Taking too much aspirin can cause temporary deafness, and researchers discovered more than a decade ago that this happens because salicylate, one of the primary metabolites of aspirin, interferes with prestin," said study lead author Guillaume Duret, a research scientist in Rice's Department of Electrical and Computer Engineering. "Given the number of commonly used NSAIDs that operate in a similar way to aspirin, it seemed like a good idea to find out whether they also might inhibit prestin."
Duret said diflunisal was the only drug in the test that blocked the action of prestin. He said the findings suggest that the inhibition occurs by competing with chloride ions in prestin, a mechanism that is similar to what has been proposed for salicylate. The study also found that the dosage needed to induce a reaction was less than the aspirin dose required to induce a similar reaction.
Diflunisal is primarily prescribed as a mild pain killer and an anti-inflammatory for arthritis. But Duret said the findings come at an important time because the medical community is considering repurposing diflunisal as a possible treatment for both cancer and amyloid polyneuropathy.
"So far, it's been used in a pill form that is ingested, and the known side effects are for relatively small doses, like as if you were taking aspirin," Duret said. "For greater doses that are perhaps injected, the side effects may not yet be known."
He conducted the study's experiments in 2015 with two of the world's leading experts on prestin and outer hair cells, Rice bioengineer Rob Raphael and Baylor College of Medicine molecular biologist Fred Pereira.

Friday, September 22, 2017

Cancer drug may inhibit growth of cysts in patients with inherited form of kidney disease

In continuation of my update on bostinib
A cancer drug called bosutinib may inhibit the growth of cysts in patients with autosomal dominant polycystic kidney disease (ADPKD), according to a study appearing in an upcoming issue of the Journal of the American Society of Nephrology (JASN). The findings point to a potential new treatment strategy for affected patients, but the long-term benefits remain to be determined.
Bosutinib2DACS.svg bosutinib
ADPKD is an inherited disorder that affects up to 1 in 1000 people and is characterized by cysts in the kidney and other organs. As patients' kidney volume increases due to cyst growth, they gradually lose their kidney function and often develop kidney failure. Current treatments are primarily supportive, such as focusing on hypertension and other secondary complications.
The inherited mutations that cause ADPKD affect a protein involved in various signaling pathways that often involve enzymes called tyrosine kinases. Therefore, a team led by Vladimir Tesar, MD, PhD (Charles University and General University Hospital, in the Czech Republic) tested the potential of an investigational drug called bosutinib that inhibits a particular tyrosine kinase called Src/Bcr-Abl.
The phase 2 study included patients with ADPKD who were randomized 1:1:1 to bosutinib 200 mg/day, bosutinib 400 mg/day, or placebo. Of 172 patients enrolled, 169 received at least one treatment. The higher dose of bosutinib was not well tolerated.
The annual rate of kidney enlargement was reduced by 66% for patients receiving bosutinib 200 mg/day vs. those receiving placebo (1.63% vs. 4.74%, respectively) and by 82% for all patients receiving bosutinib vs. those receiving placebo (0.84% vs. 4.74%, respectively). The study was not powered to demonstrate a treatment effect on kidney function, but there was no evidence of a benefit associated with bosutinib compared with placebo over the 2-year treatment period.
"The reduction in growth of cysts through treatment with bosutinib was confirmed, although gastrointestinal side effects (primarily diarrhea), which were partly dose-dependent, may represent a substantial drawback for the further development of the drug for patients with ADPKD," said Prof. Tesar.​
Ref : http://jasn.asnjournals.org/content/early/2017/08/23/ASN.2016111232.abstract?sid=4a3bae76-25e3-4cf5-a14f-5b7deac62567

Thursday, September 21, 2017

New drug shows promising results for treating spinal muscular atrophy

A drug developed by an Iowa State University biomedical researcher as a potential treatment for spinal muscular atrophy showed promising results in a recently published study.
Ravindra Singh, a professor of biomedical sciences in the ISU College of Veterinary Medicine, has been studying spinal muscular atrophy, a leading genetic cause of infant mortality, for years. His lab helped to identify a drug known as A15/283, an antisense oligonucleotide, as a potential treatment for spinal muscular atrophy..
In a study recently published in the peer-reviewed scientific journal Molecular Therapy, Singh and his co-authors showed the drug helped to combat the effects of the disease in mice with mild levels of the disorder.
Spinal muscular atrophy results from the loss or mutation of a gene called Survival Motor Neuron 1, often referred to as SMN1. If SMN1 is deleted or doesn't function properly, not enough SMN protein is produced, giving rise to the disease.
The study found that mice that were given the treatment on the first and third days after birth increased SMN levels and alleviated some of the genetic effects of the disease. The study looked in particular at sex-specific symptoms, such as underdeveloped testes, and found the drug helped to normalize testicular growth in male mice. Singh said previous studies failed to control for how males and females may respond differently to the treatment, and this study provides insight into such questions.

"These results in the mouse model are very promising for the possible treatment of mild spinal muscular atrophy cases in children," Singh said. "We're hoping this line of research could someday lead to clinical trials, but more work remains before that can happen."
Ref : http://www.cell.com/molecular-therapy-family/molecular-therapy/fulltext/S1525-0016(17)30157-0

https://www.ncbi.nlm.nih.gov/pubmed/28412171