Probiotics prevent deadly complications of liver disease, study finds -- ScienceDaily

Probiotics are effective in preventing hepatic encephalopathy in patients with cirrhosis of the liver, according to a new study in Clinical Gastroenterology and Hepatology, the official clinical practice journal of the American Gastroenterological Association. Hepatic encephalopathy is a deterioration of brain function that is a serious complication of liver disease.

Probiotics prevent deadly complications of liver disease, study finds 

Researchers identify drugs to slow progression of idiopathic pulmonary fibrosis

Researchers in separate clinical trials found two drugs slow the progression of idiopathic pulmonary fibrosis, a fatal lung disease with no effective treatment or cure, and for which there is currently no therapy approved by the Food and Drug Administration.

Paul W. Noble, MD, chair of the Department of Medicine at Cedars-Sinai and director of the Women's Guild Lung Institute, is the senior author of the multicenter study that found that the investigational drug pirfenidone significantly slowed the loss of lung function and reduced the risk of death. Pirfenidone was developed by InterMune Inc. and in 2011 was approved by the European Union for the treatment of idiopa Studies Published In New England Journal Of Medicine Identify Promising Drug Therapies For Fatal Lung Disease thic pulmonary fibrosis.

The findings of the ASCEND drug trial are published online by the New England Journal of Medicine and are being presented this week at the International Conference of the American Thoracic Society in San Diego. "What we discovered about the anti-inflammatory and anti-fibrotic properties of pirfenidone offers help and encouragement to so many patients suffering from this relentless disease that robs them of breath and life," said Noble.

Researchers identify drugs to slow progression of idiopathic pulmonary fibrosis

Novel drug for patients with inoperable CTEPH shows improvement in international trial

After a year of being treated with a novel drug, patients with inoperable chronic thromboembolic pulmonary hypertension (CTEPH) and those with persistent or recurrent pulmonary hypertension after an operation for the disease showed sustained improvement in a multicenter, international trial presented at the 2014 American Thoracic Society International Conference.

The drug, riociguat, is a guanylate cyclase stimulator that works independently and in concert with endogenous nitric oxide to induce vasodilation. A long-term extension study, CHEST-2 enrolled patients from CHEST-1, which followed these patients for 16 weeks and achieved its primary endpoint: improved six-minute walking distance (6MWD).

"The pivotal study, CHEST-1, showed significant improvements in exercise capacity and hemodynamics in patients treated with riociguat," said principal investigator Marius Hoeper, MD, of the Hannover Medical School (Germany). "However, the study was relatively short, and CHEST-2 adds important information on the long-term tolerability and efficacy of riociguat in patients with CTEPH."

CTEPH is a relatively rare disease; about 5000 people in the U.S. are diagnosed with the disease each year. It occurs when blood clots from previous episodes of acute pulmonary embolism do not resolve, causing persistent obstruction of the pulmonary vasculature, which may ultimately lead to pulmonary hypertension.

Novel drug for patients with inoperable CTEPH shows improvement in international trial

Substance from pine bark is a potential source for treating melanoma

A substance that comes from pine bark is a potential source for a new treatment of melanoma, according to Penn State College of Medicine researchers.

Current melanoma drugs targeting single proteins can initially be effective, but resistance develops relatively quickly and the disease recurs. In those instances, resistance usually develops when the cancer cell's circuitry bypasses the protein that the drug acts on, or when the cell uses other pathways to avoid the point on which the drug acts.

"To a cancer cell, resistance is like a traffic problem in its circuitry," said Gavin Robertson, professor of pharmacology, pathology, dermatology, and surgery and director of the Penn State Hershey Melanoma Center. "Cancer cells see treatment with a single drug as a road closure and use a detour or other roads to bypass the closure."

Penn State researchers may have solved this problem by identifying a drug that simultaneously creates many road closures.

The researchers screened 480 natural compounds and identified leelamine, derived from the bark of pine trees, as a drug that can cause this major traffic jam in the cancer cell's circuitry.

"Natural products can be a source of effective cancer drugs, and several are being used for treating a variety of cancers," said Robertson. "Over 60 percent of anti-cancer agents are derived from plants, animals, marine sources or microorganisms. However, leelamine is unique in the way that it acts."

Leelamine could be the first of a new unique class of drugs that will simultaneously target several protein pathways. Researchers found that this drug shuts down multiple protein pathways, such as PI3K, MAPK and STAT3, at the same time in melanoma cells. Thpse pathways are involved in the development of up to 70 percent of melanomas. Protein pathways like these help cancer cells multiply and spread, so shutting them down helps kill the cells.

"The cancer cell is addicted to these pathways," Robertson said. "And when they are shut down, the bypass routes cannot be used. The result is the cancer cells die."

Substance from pine bark is a potential source for treating melanoma

New drug offers promising possibility for treating adults with periodontitis

University of Pennsylvania researchers have been searching for ways to prevent, half and reverse periodontitis. In a report published in the Journal of Immunology, they describe a promising new target: a component of the immune system called complement. Treating monkeys with a complement inhibitor successfully prevented the inflammation and bone loss that is associated with periodontitis, making this a promising drug for treating humans with the disease.

George Hajishengallis, a professor in the School of Dental Medicine's Department of Microbiology, was the senior author on the paper, collaborating with co-senior author John Lambris, the Dr. Ralph and Sallie Weaver Professor of Research Medicine in the Department of Pathology and Laboratory Medicine in the Perelman School of Medicine. Their collaborators included Tomoki Maekawa, Toshiharu Abe, Evlambia Hajishengallis and Kavita B. Hosur of Penn Dental Medicine and Robert A. DeAngelis and Daniel Ricklin of Penn Medicine.

Earlier work by the Penn team had shown that the periodontal bacterium Porphyromonas gingivalis can hamper the ability of immune cells to clear infection, allowing P. gingivalisand other bacteria to flourish and inflame the gum tissue.

"P. gingivalis has many mechanisms to escape killing by the immune system, but getting rid of inflammation altogether is not good for them because they 'feed' off of it," Hajishengallis said. "So P. gingivalis helps suppress the immune system in a way that creates a hospitable environment for the other bacteria."

The researchers wanted to find out which component of the complement system might be involved in contributing to and maintaining inflammation in the disease. Their experiments focused on the third component of complement, C3, which occupies a central position in signaling cascades that trigger inflammation and activation of the innate immune system.

New drug offers promising possibility for treating adults with periodontitis

Screen of existing drugs finds compounds active against MERS coronavirus

Clinicians treating patients suffering from Middle East respiratory syndrome (MERS) currently have no drugs specifically targeted to the MERS coronavirus (MERS-CoV), a virus first detected in humans in 2012 that has since caused 614 laboratory-confirmed infections, including 181 that were fatal, according to the World Health Organization. The case count escalated sharply in the spring of this year, and the first cases in the United States were announced in early May. To address the urgent need for therapies, researchers supported by the National Institutes of Health screened a set of 290 compounds already approved by the U.S. Food and Drug Administration or far advanced in clinical development for other indications to determine if any might also show potential for working against MERS-CoV.

Screen of existing drugs finds compounds active against MERS coronavirus  

FDA Approves Dalvance (dalbavancin) to Treat Skin Infections

The U.S. Food and Drug Administration today approved Dalvance (dalbavancin), a new antibacterial drug used to treat adults with skin infections.

Dalvance is intended to treat acute bacterial skin and skin structure infections (ABSSSI) caused by certain susceptible bacteria like Staphylococcus aureus (including methicillin-susceptible and methicillin-resistant strains) and Streptococcus pyogenes. The treatment is administered intravenously.

Dalvance is the first drug designated as a Qualified Infectious Disease Product (QIDP) to receive FDA approval. Under the Generating Antibiotic Incentives Now (GAIN) title of the FDA Safety and Innovation Act, Dalvance was granted QIDP designation because it is an antibacterial or antifungal human drug intended to treat serious or life-threatening infections.

“Today’s approval demonstrates the FDA’s commitment to encouraging increased development and approval of new antibacterial drugs, providing physicians and patients with important new treatment options,” said Edward Cox, M.D., M.P.H, director of the Office of Antimicrobial Products in the FDA’s Center for Drug Evaluation and Research.

As part of its QIDP designation, Dalvance was given priority review, which provides an expedited review of the drug’s application. Dalvance’s QIDP designation also qualifies it for an additional five years of marketing exclusivity to be added to certain exclusivity periods already provided by the Food, Drug and Cosmetic Act.

Dalvance’s safety and efficacy were evaluated in two clinical trials with a total of 1,289 adults with ABSSSI. Participants were randomly assigned to receive Dalvance or vancomycin, another antibacterial drug. Results showed Dalvance was as effective as vancomycin for the treatment of ABSSSI.

The most common side effects identified in the clinical trials were nausea, headache and diarrhea. In the trials, more participants in the Dalvance group had elevations in one of their liver enzyme tests. The Dalvance drug label provides recommendations on dosage adjustment in patients with renal impairment.

FDA Approves Dalvance (dalbavancin) to Treat Skin Infections

Combination of metformin and rapamycin shows potential in treating aging and related diseases

A proven approach to slow the aging process is dietary restriction, but new research in the Linus Pauling Institute at Oregon State University helps explain the action of a drug that appears to mimic that process - rapamycin.

Rapamycin, an antibiotic and immunosuppressant approved for use about 15 years ago, has drawn extensive interest for its apparent ability - at least in laboratory animal tests - to emulate the ability of dietary restriction in helping animals to live both longer and healthier.

However, this medication has some drawbacks, including an increase in insulin resistance that could set the stage for diabetes. The new findings, published in the Journals of Gerontology: Biological Sciences, help to explain why that happens, and what could be done to address it.

They suggest that a combination of rapamycin and another drug to offset that increase in insulin resistance might provide the benefits of this medication without the unwanted side effect.

"This could be an important advance if it helps us find a way to gain the apparent benefits of rapamycin without increasing insulin resistance," said Viviana Perez, an assistant professor in the Department of Biochemistry and Biophysics in the OSU College of Science.

"It could provide a way not only to increase lifespan but to address some age-related diseases and improve general health," Perez said. "We might find a way for people not only to live longer, but to live better and with a higher quality of life."

Age-related diseases include many of the degenerative diseases that affect billions of people around the world and are among the leading causes of death: cardiovascular disease, diabetes, Alzheimer's disease and cancer.

Combination of metformin and rapamycin shows potential in treating aging and related diseases

Study provides new insight into the prevalence of obesity

Study provides new insight into the prevalence of obesity

Isis Pharmaceuticals starts Phase 1 clinical study of ISIS-PKKRx to treat patients with HAE

Isis Pharmaceuticals, Inc. (NASDAQ: ISIS) announced  that it initiated a Phase 1 clinical study of ISIS-PKKRx.  ISIS-PKKRx is an antisense drug in development to treat patients with hereditary angioedemia (HAE).  HAE is a rare genetic disease that is characterized by rapid and painful attacks of inflammation in the hands, feet, limbs, face, abdomen, larynx and trachea.  HAE affects approximately 20,000 patients in the United States and Europe and can be fatal if swelling occurs in the larynx.  ISIS-PKKRx is designed to alter the course of HAE and therefore has the potential to be best-in-class for the treatment of HAE.  

Isis Pharmaceuticals starts Phase 1 clinical study of ISIS-PKKRx to treat patients with HAE

AbbVie receives HUMIRA orphan drug designation from FDA for treatment of non-infectious uveitis

AbbVie (NYSE: ABBV) announced that the U.S. Food and Drug Administration (FDA) has granted HUMIRA® (adalimumab) orphan drug designation for the treatment of non-infectious intermediate, posterior, or pan-uveitis, or chronic non-infectious anterior uveitis, a group of rare but serious inflammatory diseases of the eye. AbbVie is investigating the efficacy and safety of HUMIRA for the treatment of non-infectious uveitis, and the clinical program is in Phase III development. HUMIRA is not currently approved to treat any form of uveitis.

Uveitis is a general term that encompasses several inflammatory eye diseases. The associated inflammation causes damage of eye tissue leading to reduced vision and/or vision loss. While the exact cause of uveitis is unknown, this condition can be caused by an infection, autoimmune disease, medication, surgery or trauma to the eye. Symptoms of uveitis may include vision loss, blurred vision, eye pain and redness, as well as sensitivity to light. It is estimated that uveitis accounts for 10 to 15 percent of all cases of total blindness in the U.S.

AbbVie receives HUMIRA orphan drug designation from FDA for treatment of non-infectious uveitis

Study: RNAi silencing strategy blocks production of mutant huntingtin protein

In continuation of my update on RNAi

A targeted gene silencing strategy blocks production of the dysfunctional huntingtin (Htt) protein, the cause of Huntington's disease, a fatal, inherited neurodegenerative disorder. The effectiveness of this RNA interference (RNAi) approach in reducing levels of mutant Htt protein and disease symptoms in a mouse model of the disease is described in Human Gene Therapy, a peer-reviewed journal from Mary Ann Liebert, Inc., publishers. The article is available free on the Human Gene Therapy website.

Lisa Stanek and coauthors from Genzyme (Framingham, MA) used an adeno-associated viral (AAV) vector to deliver a targeted nucleic acid sequence called a small interfering RNA (siRNA) into the cells of affected mice. The siRNA selectively binds to the mutated gene, blocking disease-causing Htt production. The authors present data demonstrating the ability to deliver the therapeutic RNAi into the cells, reduce mutant Htt levels, and impact behavioral deficits in the mice without causing any noticeable neurotoxicity, in their article "Silencing Mutant Huntingtin by Adeno-Associated Virus-Mediated RNA Interference Ameliorates Disease Manifestations in the YAC128 Mouse Model of Huntington's Disease."

"The Genzyme group uses state-of-the-art delivery technology and a gene silencing approach to generate very promising preclinical data for Huntington's disease," says James M. Wilson, MD, PhD, Editor-in-Chief of Human Gene Therapy, and Director of the Gene Therapy Program, Department of Pathology and Laboratory Medicine, University of Pennsylvania Perelman School of Medicine, Philadelphia.

Study: RNAi silencing strategy blocks production of mutant huntingtin protein

New anticancer compound discovered

A team of research scientists from VTT Technical Research Centre of Finland, the University of Turku and the University of Eastern Finland has discovered a previously unknown Cent-1 molecule that kills cancer cells. Their research also shows that new cancer drug candidates can be identified faster and at lower cost by using computer-assisted and cell-based screening of compounds.

Ref: http://mct.aacrjournals.org/content/13/5/1054

New anticancer compound discovered 

Research explains action of drug that may slow aging, related disease

Rapamycin, an antibiotic and immunosuppressant approved for use about 15 years ago, has drawn extensive interest for its apparent ability at least in laboratory animal tests -- to emulate the ability of dietary restriction in helping animals to live both longer and healthier.

However, this medication has some drawbacks, including an increase in insulin resistance that could set the stage for diabetes. The new findings, published in the Journals of Gerontology: Biological Sciences, help to explain why that happens, and what could be done to address it. They suggest that a combination of rapamycin and another drug to offset that increase in insulin resistance might provide the benefits of this medication without the unwanted side effect.

"This could be an important advance if it helps us find a way to gain the apparent benefits of rapamycin without increasing insulin resistance," said Viviana Perez, an assistant professor in the Department of Biochemistry and Biophysics in the OSU College of Science.

"It could provide a way not only to increase lifespan but to address some age-related diseases and improve general health," Perez said. "We might find a way for people not only to live longer, but to live better and with a higher quality of life."

Age-related diseases include many of the degenerative diseases that affect billions of people around the world and are among the leading causes of death: cardiovascular disease, diabetes, Alzheimer's disease and cancer. Laboratory mice that have received rapamycin have reduced the age-dependent decline in spontaneous activity, demonstrated more fitness, improved cognition and cardiovascular health, had less cancer and lived substantially longer than mice fed a normal diet.

Rapamycin, first discovered from the soils of Easter Island, or Rapa Nui in the South Pacific Ocean, is primarily used as an immunosuppressant to prevent rejection of organs and tissues. In recent years it was also observed that it can function as a metabolic "signaler" that inhibits a biological pathway found in almost all higher life forms --     the  ability to  sense when  food  has
been eaten, energy is available and it's okay for cell proliferation, protein synthesis and growth to proceed.

Called mTOR in mammals, for the term "mammalian target of rapamycin," this pathway has a critical evolutionary value -- it helps an organism avoid too much cellular expansion and growth when energy supplies are insufficient. That helps explain why some form of the pathway has been conserved across such a multitude of species, from yeast to fish to humans.

"Dietary restriction is one of the few interventions that inhibits this mTOR pathway," Perez said. "And a restricted diet in laboratory animals has been shown to increase their lifespan about 25-30 percent. Human groups who eat fewer calories, such as some Asian cultures, also live longer."
Aside from a food intake in laboratory mice that's about 40 percent fewer calories than normal, however, it's been found that another way to activate this pathway is with rapamycin, which appears to have a significant impact even when used late in life. Some human clinical trials are already underway exploring this potential.

A big drawback to long-term use of rapamycin, however, is the increase in insulin resistance, observed in both humans and laboratory animals. The new research identified why that is happening. It found that both dietary restriction and rapamycin inhibited lipid synthesis, but only dietary restriction increased the oxidation of those lipids in order to produce energy.

Rapamycin, by contrast, allowed a buildup of fatty acids and eventually an increase in insulin resistance, which in humans can lead to diabetes. However, the drug metformin can address that concern, and is already given to some diabetic patients to increase lipid oxidation. In lab tests, the combined use of rapamycin and metformin prevented the unwanted side effect.

"If proven true, then combined use of metformin and rapamycin for treating aging and age-associated diseases in humans may be possible," the researchers wrote in their conclusion.

This work was supported by the National Institutes of Health. Collaborators included researchers from Oklahoma University Health Science Center, the Oklahoma City VA Medical Center, University of Michigan-Flint, and South Texas Veterans Health Care System.

"There's still substantial work to do, and it may not be realistic to expect with humans what we have been able to accomplish with laboratory animals," Perez said. "People don't live in a cage and eat only the exact diet they are given. 

Nonetheless, the potential of this work is exciting."

Research explains action of drug that may slow aging, related disease  

Compound reverses symptoms of Alzheimer's disease in mice

"It reversed learning and memory deficits and brain inflammation in mice that are genetically engineered to model Alzheimer's disease," Farr said. "Our current findings suggest that the compound, which is called antisense oligonucleotide (OL-1), is a potential treatment for Alzheimer's disease."

Farr cautioned that the experiment was conducted in a mouse model. Like any drug, before an antisense compound could be tested in human clinical trials, toxicity tests need to be completed.

Antisense is a strand of molecules that bind to messenger RNA, launching a cascade of cellular events that turns off a certain gene.

In this case, OL-1 blocks the translation of RNA, which triggers a process that keeps excess amyloid beta protein from being produced. The specific antisense significantly decreased the over expression of a substance called amyloid beta protein precursor, which normalized the amount of amyloid beta protein in the body. Excess amyloid beta protein is believed to be partially responsible for the formation of plaque in
the brain of patients who have Alzheimer's disease.

Scientists tested OL-1 in a type of mouse that overexpresses a mutant form of the human amyloid beta precursor gene. Previously they had tested the substance in a mouse model that has a natural mutation causing it to overproduce mouse amyloid beta. Like people who have Alzheimer's disease, both types of mice have age-related impairments in learning and memory, elevated levels of amyloid beta protein that stay in the brain and increased inflammation and oxidative damage to the hippocampus  the part of the brain responsible for learning and memory.

"To be effective in humans, OL-1 would need to be effective at suppressing production of human amyloid beta protein," Farr said.

Scientists compared the mice that were genetically engineered to overproduce human amyloid beta protein with a wild strain, which served as the control. All of the wild strain received random antisense, while about half of the genetically engineered mice received random antisense and half received OL-1. 

The mice were given a series of tests designed to measure memory, learning and appropriate behavior, such as going through a maze, exploring an unfamiliar location and recognizing an object. 

Scientists found that learning and memory improved in the genetically engineered mice that received OL-1 compared to the genetically engineered mice that received random antisense. Learning and memory were the same among genetically engineered mice that received OL-1 and wild mice that received random antisense.

They also tested the effect of administering the drug through the central nervous system, so it crossed the blood brain barrier to enter the brain directly, and of giving it through a vein in the tail, so it circulated through the bloodstream in the body. They found where the drug was injected had little effect on learning and memory.

Ref http://iospress.metapress.com/content/px72758w0158103u/?issue=4&genre=article&spage=1005&issn=1387-2877&volume=40

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Compound
reverses symptoms of Alzheimer's disease in mice