Wednesday, January 16, 2013

Melanomas that develop resistance to vemurafenib also become addicted to the drug

In continuation of my update on vemurafenib

Researchers in California and Switzerland have discovered that melanomas that develop resistance to the anti-cancer drug vemurafenib (marketed as Zelboraf), also develop addiction to the drug, an observation that may have important implications for the lives of patients with late-stage disease. 

The team, based at the University of California, San Francisco (UCSF), the Novartis Institutes for Biomedical Research (NIBR) in Emeryville, Calif., and University Hospital Zurich, found that one mechanism by which melanoma cells become resistant to vemurafenib also renders them "addicted" to the drug. As a result, the melanoma cells nefariously use vemurafenib to spur the growth of rapidly progressing, deadly and drug-resistant tumors.


Ref : http://www.nature.com/nature/journal/vaop/ncurrent/full/nature11814.html


Tuesday, January 15, 2013

Results from Morphotek’s farletuzumab Phase III combination study on ovarian cancer

In continuation of my update on carboplatin and a taxane


Morphotek® Inc., a wholly-owned subsidiary of Eisai Inc., announced top-line results from a Phase III study of its investigational agent farletuzumab (MORAb-003) in combination with carboplatin and a taxane in patients with platinum-sensitive epithelial ovarian cancer in first relapse. 

The study found that farletuzumab in combination with carboplatin and a taxane did not meet the study's primary endpoint of progression-free survival (PFS). The post hoc exploratory analysis showed, however, a trend toward improved PFS in some patient subsets and further analysis is ongoing.

The preliminary safety analysis indicated that the most commonly reported adverse events were those known to be associated with the study chemotherapy agents. Additionally, some immune-mediated events were observed with farletuzumab.

After further analysis of these clinical results, the company will determine a new development strategy based on discussion with external experts and relevant health authorities. In the double-blind, placebo-controlled study, 1,100 patients were enrolled to receive standard-of-care (carboplatin and a taxane [paclitaxel or docetaxel]) chemotherapy and were randomized to three parallel groups to receive one of two different dose levels of farletuzumab or placebo.

"While we are disappointed with these results, we know that ovarian cancer is a difficult disease to treat successfully," says Dr. Nicholas Nicolaides , President and CEO of Morphotek. "Morphotek remains committed to research to understand the potential role of farletuzumab in ovarian and other types of cancer."......


Monday, January 14, 2013

Melanomas that develop resistance to vemurafenib also become addicted to the drug

Vemurafenib (marketed as Zelboraf) is a B-Raf enzyme inhibitor developed by Plexxikon (now part of the Daiichi Sankyo group) and Hoffmann–La Roche for the treatment of late-stage melanoma. The name "vemurafenib" comes from V600E mutated BRAF inhibition.
Vemurafenib received FDA approval for the treatment of late-stage melanoma on August 17, 2011,  Health Canada approval on February 15, 2012 and on February 20, 2012, the European Commission approved vemurafenib as a monotherapy for the treatment of adult patients with BRAF V600 mutation positive unresectable or metastatic melanoma, the most aggressive form of skin cancer....

Mechanism : Vemurafenib has been shown to cause programmed cell death in melanoma cell lines. Vemurafenib interrupts the B-Raf/MEK step on the B-Raf/MEK/ERK pathway if the B-Raf has the common V600E mutation.
Vemurafenib only works in melanoma patients whose cancer has a V600E BRAF mutation (that is, at amino acid position number 600 on the B-Raf protein, the normal valine is replaced by glutamic acid). About 60% of melanomas have this mutation. It also has efficacy against the rarer BRAF V600K mutation. Melanoma cells without these mutations are not inhibited by vemurafenib; the drug paradoxically stimulates normal BRAF and may promote tumor growth in such cases. 

Saturday, January 12, 2013

FDA approves Kineret for the treatment of NOMID


Anakinra is an interleukin-1 (IL-1) receptor antagonist. Anakinra blocks the biologic activity of naturally occurring IL-1, includinginflammation and cartilage degradation associated with rheumatoid arthritis, by competitively inhibiting the binding of IL-1 to the Interleukin-1 type receptor, which is expressed in many tissues and organs. IL-1 is produced in response to inflammatory stimuli and mediates various physiologic responses, including inflammatory and immunologic reactions. IL-1 additionally stimulates bone resorptionand induces tissue damage like cartilage degradation as a result of loss of proteoglycans. In patients with rheumatoid arthritis the natural IL-1 receptor antagonist is not found in effective concentrations in synovium and synovial fluid to counteract the elevated IL-1 concentrations in these patients.
Anakinra is not considered a 'Disease-modifying antirheumatic drug' (DMARD) but rather a 'Biological Response Modifier' (BRM) because its able to selectively target the pathologic element of the disease.

FDA approves Kineret for the treatment of NOMID

Wednesday, January 9, 2013

FDA Approves Sirturo to Treat Multi-Drug Resistant Tuberculosis

In continuation of my update on Sirturo

On Dec. 28, the U.S. Food and Drug Administration approved Sirturo (bedaquiline) as part of combination therapy to treat adults with multi-drug resistant pulmonary tuberculosis (TB) when other alternatives are not available.


Bedaquiline (also known as SirturoTMC207 or R207910 see structure) is an diarylquinoline anti-tuberculosis drug, which was discovered by Koen Andries and his team at Janssen Pharmaceutica. It was described for the first time in 2004 at the Interscience Conference on Antimicrobial Agents and Chemotherapy (ICAAC) meeting Late-Breaker Session, after the drug had been in development for over 7 years, and a trial of 47 patients showed that it is effective in the treatment of M. tuberculosis.

Multi-drug resistant TB occurs when M. tuberculosis becomes resistant to isonazid and rifampin, two powerful drugs most commonly used to treat TB. Sirturo is the first drug approved to treat multi-drug resistant TB and should be used in combination with other drugs used to treat TB. Sirturo works by inhibiting an enzyme needed by M. tuberculosis to replicate and spread throughout the body.
“Multi-drug resistant tuberculosis poses a serious health threat throughout the world, and Sirturo provides much-needed treatment for patients who have don’t have other therapeutic options available,” 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. “However, because the drug also carries some significant risks, doctors should make sure they use it appropriately and only in patients who don’t have other treatment options.”
Sirturo is being approved under the FDA’s accelerated approval program, which allows the agency to approve a drug to treat a serious disease based on clinical data showing that the drug has an effect on a surrogate endpoint that is reasonably likely to predict a clinical benefit to patients. This program provides patients earlier access to promising new drugs while the company conducts additional studies to confirm the drug’s clinical benefit and safe use.
The FDA also granted Sirturo fast track designation, priority review and orphan-product designation. The drug demonstrated the potential to fill an unmet medical need, has the potential to provide safe and effective treatment where no satisfactory alternative therapy exists, and is intended to treat a rare disease, respectively.
Sirturo carries a Boxed Warning alerting patients and health care professionals that the drug can affect the heart’s electrical activity (QT prolongation), which could lead to an abnormal and potentially fatal heart rhythm. The Boxed Warning also notes deaths in patients treated with Sirturo. Nine patients who received Sirturo died compared with two patients who received placebo. Five of the deaths in the Sirturo group and all of the deaths in the placebo arm seemed to be related to tuberculosis, but no consistent reason for the deaths in the remaining Sirturo-treated patients could be identified.



Tuesday, January 8, 2013

FDA Approves Fulyzaq - First Anti-Diarrheal Drug for HIV/AIDS Patients

We know that, Crofelemer (USAN, trade name Fulyzaq) is a drug under development for the treatment of diarrhoea associated with anti-HIV drugs such as nucleoside analog reverse transcriptase inhibitors and protease inhibitors. Other possible uses include diarrhoea in children, acute infectious diarrhoea, and diarrhoea in patients with irritable bowel syndrome. It was initially developed by Napo Pharmaceuticals, which licensed it to Glenmark Pharmaceuticals in 140 emerging markets and to Salix Pharmaceuticals in the US, EU and some other markets.

On 31st Dec, 2012, U.S. Food and Drug Administration today approved Fulyzaq (crofelemer) to relieve symptoms of diarrhea in HIV/AIDS patients taking antiretroviral therapy, a combination of medicines used to treat HIV infection....

Monday, January 7, 2013

New class of malaria drugs using essential calcium enzyme developed


Greenbaum and his collaborators examined the crystal structure of calpastatin, a natural calpain inhibitor, for clues. They decided to take a different tack on inhibitor development, which has traditionally been designing small peptide-like inhibitors that fit across an enzyme's active site. Studying the configuration of how calpastatin bound to the active site of the calpain complex, researchers found that there was a small alpha-helix that fit into the active site of the calpain enzyme.


Researchers have never before used an alpha-helix structure to inhibit a protease. "Traditionally people thought that alpha helices normally make horrible inhibitors because it was thought that proteases don't like to bind to them preferring to bind motifs called a beta-sheet," Greenbaum notes. The research team created a peptide with an alpha-helical shape that would fit into the active site of the calpain protease.

The team set out to find a way to stabilize the helix by modifying it with a cross-linking peptide. They screened twenty-four commercially available crosslinkers, identifying five that succeeded in stabilizing the helix. They selected one in particular  dibromo-m-xylene c15 and used it to mimic a protein-protein interaction between calpain and calpastatin. By binding to the active site and thus blocking it, the synthesized molecule inhibits the calpain enzyme from binding with other molecules that permit it to wreak its damaging effects.
"It's the first example of an alpha-helical inhibitor of any protease," Greenbaum says. "Previously no one's ever tried using an alpha-helical motif. It opens up a new way of inhibiting proteases." Aside from being a good inhibitor, the stabilized alpha-helical molecule is also highly specific for calpains, while ignoring other, similar-shaped proteases, thus hopefully downplaying potential side effects if used in humans.
Greenbaum and his collaborators are building upon this initial success to expand the basic concept to a wide range of protease molecules. "The next step is to show how this concept can be generalized to multiple classes of proteases, many of which are pharmaceutically of great interest," he explains. "It's not a single-hit wonder."
The extension of the technique to stabilize the alpha-helix shape in enzymes to other proteins could eventually lead to practical drug therapies for a wide range of diseases, predict the researchers.

Ref : http://pubs.acs.org/doi/abs/10.1021/ja307599z


Sunday, January 6, 2013

Common cholesterol-lowering drug may help protect against cerebral malaria

In continuation of my update lovastatin

Researchers have discovered that adding lovastatin, a widely used cholesterol-lowering drug, to traditional antimalarial treatment decreases neuroinflammation and protects against cognitive impairment in a mouse model of cerebral malaria. Although there are differences between mouse models of cerebral malaria and human disease, these new findings indicate that statins are worthy of consideration in clinical trials of cerebral malaria. 


Statins, a class of drugs best known for their ability to lower cholesterol, have also been shown to be active in modulating a variety of immune system responses. In their research, Zimmerman and his Brazilian colleagues evaluated the effect of statins in a mouse model of cerebral malaria. The researchers found that adding a drug called lovastatin to traditional antimalarial therapy prevented cognitive dysfunction in mice infected with cerebral malaria. They discovered that addition of lovastatin decreased white blood cell accumulation and leakiness in blood vessels in the brain. Lovastatin also reduced production of damaging oxygen-containing molecules and other factors that promote inflammation.


"The molecular mechanisms that give rise to cerebral malaria and subsequent cognitive dysfunction are not yet known," says Zimmerman. "However, the fact that statin treatment decreases both injurious blood vessel inflammation and cognitive dysfunction suggests that a combination of vascular and inflammatory triggers leads to cerebral pathology and intellectual deficits."
Ref : http://www.plospathogens.org/article/info%3Adoi%2F10.1371%2Fjournal.ppat.1003099

Common cholesterol-lowering drug may help protect against cerebral malaria

Saturday, January 5, 2013

Aeterna Zentaris reaches SPA agreement with FDA for AEZS-108 Phase 3 trial in endometrial cancer


Aeterna Zentaris Inc. announced that it has reached an agreement with FDA  on a Special Protocol Assessment ("SPA") for an upcoming Phase 3 registration trial in endometrial cancer with its doxorubicin peptide conjugate, AEZS-108. The SPA agreement states that the proposed trial protocol design, clinical endpoints and planned analyses are acceptable to the FDA to support a regulatory submission. 

About AEZA-108 : AEZS-108: AEZS-108 (AN-152, or zoptarelin doxorubicin) is a targeted cytotoxic peptide conjugate which is a hybrid molecule composed of a synthetic peptide carrier and a well-known cytotoxic agent, doxorubicin. The design of this product allows for the specific binding and selective uptake of the cytotoxic conjugate by the LHRH receptor-positive tumors. The binding of conjugate molecule AEZS-108 to cancerous cells that express these receptors results in its accumulation in the malignant tissue. This binding is followed by internalization and retention of the cytotoxic drug, doxorubicin, in the cells. Therefore, since they target specific cells, cytotoxic conjugates are postulated to be more effective and have less side-effects than the respective non-conjugated/non-linked cytotoxic agents in inhibiting tumor growth. AEZS-108 is the first drug in a clinical study that targets the cytotoxic activity of doxorubicin specifically to LHRH-receptor expressing tumors. 


"We are pleased with the agreement with the FDA which provides us with a clearly defined development and regulatory pathway for AEZS-108 in endometrial cancer", stated Juergen Engel , PhD, President and CEO at Aeterna Zentaris. "AEZS-108's innovative targeted approach could offer a new treatment option for women with endometrial cancer and provide the Company with a significant market opportunity."

Friday, January 4, 2013

Drug May Help Women Who Quit Smoking Avoid Weight Gain - Drugs.com MedNews

In continuation of my update on Naltrexone

We know that, Naltrexone is an opioid receptor antagonist used primarily in the management of alcohol dependence and opioid dependence. It is marketed in generic form as its hydrochloridesalt, naltrexone hydrochloride, and marketed under the trade names Revia andDepade. In some countries including the United States, a once-monthly extended-release injectable formulation is marketed under the trade name Vivitrol. Also in the US, Methylnaltrexone Bromide, a closely related drug, is marketed as Relistor, for the treatment of opioid induced constipation.

Naltrexone should not be confused with naloxone (which is used in emergency cases of overdose rather than for longer-term dependence control) nor nalorphine. Using naloxone in place of naltrexone can cause far worse withdrawal symptoms; conversely, using naltrexone in place of naloxone in an overdose can lead to insufficient opiate antagonism and fail to reverse the overdose.



Thursday, January 3, 2013

FDA Approves Juxtapid - New Orphan Drug for Rare Cholesterol Disorder

In continuation of my update on Juxtapid (lomitapide) 

We know that, Lomitapide (INN) is an investigational drug for the treatment of familial hypercholesterolemia, developed by Aegerion Pharmaceuticals.  It has been tested in several Phase II clinical trials as single treatment and in combinations with atorvastatinezetimibe and fenofibrate. 

The US Food and Drug Administration approved lomitapide on December 21, 2012 as anorphan drug to reduce LDL cholesterol, total cholesterol, apolipoprotein B, and non-high-density lipoprotein (non-HDL) cholesterol in patients with homozygous familial hypercholesterolemia (HoFH).



FDA Approves Juxtapid - New Orphan Drug for Rare Cholesterol Disorder

Tuesday, January 1, 2013

Scientists design small molecules that recognize myotonic dystrophy-associated RNAs

In continuation of my update on RNAs


Killing the message: An approach to direct the cleavage of RNA targets with small molecules in living cells is described (see scheme). A bifunctional small molecule (purple) that recognizes a specific three nucleotide repeat sequence and cleaves that sequence in response to light was shown to be effective at degrading the myotonic dystrophy type 1 (DM1) extended repeat RNAs, affecting biological functions.


Ref : http://onlinelibrary.wiley.com/doi/10.1002/anie.201206888/abstract