Med-Chemist : "Quintessential Medicinal Chemistry"
Friday, April 12, 2013
Thursday, April 11, 2013
Discovery could increase efficacy of promising cystic fibrosis drug
We know that, Ivacaftor (trade name Kalydeco, developed as VX-770) is a potentiator approved for patients with the G551D mutation of cystic fibrosis. Ivacaftor was developed by Vertex Pharmaceuticals in conjunction with the Cystic Fibrosis Foundation.
Cystic fibrosis is caused by any one of several defects in a protein, cystic fibrosis transmembrane conductance regulator, which regulates fluid flow within cells and affects the components of sweat, digestive fluids, and mucus. The defect, which is caused by a mutation in the individual's DNA, can be in any of several locations along the protein, each of which interferes with a different function of the protein. G551D is a standard amino acid abbreviation for a mutation in which the amino acid glycine (G) in position 551 is replaced with aspartic acid (D). G551D is characterized by a dysfunctional CFTR protein on the cell surface. In the case of G551D, the protein is trafficked to the correct area, the epithelial cell surface, but once there the protein cannot transport chloride through the channel. Ivacaftor, a CFTR potentiator, improves the transport of chloride through the ion channel by binding to the channels directly to induce a non-conventional mode of gating which in turn increases the probability that the channel is open.
Accidental discovery of a mutation in CFTR, the R532 mutation, allowed MU researchers to reveal a new "non-strict coupling" relationship that occurs between the consumption of ATP, a molecule that provides energy in the body, and the opening and closing of the CFTR. They argue that the new information uncovered about this mechanism that controls the opening and closing of the CFTR and the passage of ions through it could explain how and where the new cystic fibrosis treatment Kalydeco (Vx-770) works.
"To his credit, Dr. Hwang exploited the behavior of the CFTR mutants to demonstrate that CFTR's gate is not strictly coupled to the nucleotide binding engine (NBD) that binds and splits ATP [energy] to drive conformational changes that regulate chloride flow through the CFTR protein channel," said colleague David Sheppard, PhD, an associate professor in the School of Physiology and Pharmacology at the University of Bristol in Bristol, U.K. who did not participate in the study.
In their study, MU researchers were able to observe the effects of the cystic fibrosis drug Vx-770 on the recently discovered R352 mutation. They found that Vx-770 enhances the activity of the CFTR channel by exploiting this "non-coupling" mechanism, a conclusion also supported by experimental results with the wild-type CFTR protein.
"Traditionally, researchers have defined how energy is utilized and transferred in the CFTR as a 'strict coupling' mechanism, meaning that one ATP molecule opens CFTR's gate, ions pass through and the ATP molecule is hydrolyzed and then the gate closes," Hwang said. "In this new model, we argue that the CFTR uses energy from ATP hydrolysis to carry out its function of chloride flow, but this coupling mechanism is more plastic than we thought and therefore could be subjective to manipulations by drugs such as Vx-770."
CFTR is part of a family of thousands of active transporter proteins called ABC proteins. Although CFTR may share many structural features with its ABC "cousins," as Hwang calls them, it has been unclear as to whether CFTR and its cousins may work in a similar manner.
The new idea of how the CFTR utilizes ATP to carry out its function may bear a broader implication because of the evolutionary relationship between CFTR and other ABC transporter proteins. It opens up a wide variety of therapeutic possibilities for other common diseases, such as cancer, heart disease and diabetes, Hwang said, since many other ABC proteins play critical roles in those human illnesses.
"It's taken years for scientists to solve this particular puzzle about the CFTR protein," Hwang said. "Our recent study provides evidence that these ABC transporter proteins and CFTR, a chloride channel, are two peas in a pod. Mother nature employs the same structural framework with just a little bit of modification to do two totally different things. From a basic science perspective, it's a big deal.".....
Ref : http://www.pnas.org/content/110/11/4404.abstract?sid=3e58deab-1076-4255-b20b-73ff47495950
Wednesday, April 10, 2013
Pain reliever shows anti-viral activity against flu
In continuation of my update on naproxen
New influenza vaccines must be developed annually, because the surface proteins they target mutate rapidly, the way cars used to get a whole new look every year. The researchers, led by Anny Slama-Schwok of the Institut National de la Recherche Agronomique, Jouy en Josas, France, found a much more stable, reliable target for anti-influenza activity. The so-called ribonucleoprotein complexes are necessary for replication, and the researchers realized they could target the nucleoprotein, preventing assembly of the complexes. Because of its vital function, the nucleoprotein is highly conserved, making it a good potential target for antiviral drugs.
The nucleoprotein's three dimensional structure, solved in 2006, provided the basis for searching for new drugs that could interfere with its action. The researchers did a virtual screening within the Sigma-Aldrich online catalog of biochemicals. That screening identified Naproxen, better known as the over-the-counter pain reliever Aleve, and as expected, it bound to the nucleoprotein, and impeded RNA binding, says Slama-Schwok. In further testing, it reduced the viral load in cells infected with H1N1 and H3N2 influenza A virus, and in mice it demonstrated a therapeutic index against influenza A that was superior to that of any other anti-inflammatory drug.
Specifically, naproxen blocks the RNA binding groove of the nucleoprotein, preventing formation of the ribonucleoprotein complex, thus taking the vital nucleoproteins out of circulation. The researchers write that naproxen is a lead compound for drug development that could be improved by tweaking the molecule to boost its ability to bind to nucleoprotein.
As an already approved drug, naproxen could become a treatment against influenza relatively quickly, the researchers write. Its status as a non-steroidal anti-inflammatory drug (NSAID), which inhibits the COX-2 pathway, as well as an antiviral would boost its efficacy.
Ref : http://aac.asm.org/content/early/2013/02/26/AAC.02335-12.abstract?sid=e3391873-6ffe-4f2e-8737-685e5f2ca15f
Tuesday, April 9, 2013
New chemo drug gentler on fertility, tougher on cancer
We know that, Arsenic trioxide is the inorganic compound with the formula As2O3. This commercially important oxide of arsenic is the main precursor to other arsenic compounds, including organoarsenic compounds. Approximately 50,000 tonnes are produced annually.Many applications are controversial given the high toxicity of arsenic compounds.
A Tiny Trojan Horse
The chemotherapy drug, arsenic trioxide, is packed into a very tiny Trojan horse called a nanobin. The nanobin consists of nano-size crystalline arsenic particles densely packed and encapsulated in a fat bubble. The fat bubble, a liposome, disguises the deadly cargo half a million drug molecules.
"You have to wallop the tumor with a significant dose of arsenic but at the same time prevent exposure to normal tissue from the drug," said O'Halloran. The fat bubble is hundreds of times smaller than the average human cell. It is the perfect size to stealthily slip through holes in the leaky blood vessels that rapidly grow to feed tumors. The local environment of the tumor is often slightly acid; it is this acid that causes the nanobin to release its drug cargo and deliver a highly effective dose of arsenic where it is needed.
The scientists show this approach to packaging and delivering the active drug has the desired effect on the tumor cells but prevents damage to ovarian tissue, follicles or eggs.
While the drug is gentle on fertility, it is ferocious on cancer. When tested against lymphoma, it was more potent than the drug in its traditional free form.
"The drug was designed to maximize its effectiveness but reduce fertotoxicity," said O'Halloran, also the Morrison Professor of Chemistry in the Weinberg College of Arts and Sciences at Northwestern. "Many cancer drugs cause sterilization, that's why the reproductive tract is really important to focus on in the new stages of drug design. Other body systems get better when people stop taking the drug, but fertility you can't recover."
Arsenic trioxide was approved a few years ago for treating some types of blood cancers such as leukemia in humans, but O'Halloran thinks the arsenic trioxide nanobins can be used against breast cancer and other solid tumors. In his previously published preclinical research, nanobins were effective in reducing tumor growth in triple-negative breast cancer, which often doesn't respond well to traditional chemotherapy and has a poor survival rate.
Quick Test For Fertility Toxicity
Woodruff was able to show early effects of the drug on fertility by using an in vitro follicle culture and a quick, simple new test she developed. She compared the fertotoxicity of the nanobin and free drug and found the nanobin was much less toxic to female fertility than the free drug in the experimental model.
"The system can be adapted very easily for any cancer drug under development to get an early peek under the tent,"said Woodruff, also the Thomas J. Watkins Memorial Professor of Obstetrics and Gynecology at Feinberg. "As this new drug goes forward in development, we can say this is a good drug for young female cancer patients who are concerned about fertility."
The information gained from the toxicity test will help inform the treatment decisions of oncologists and their young female cancer patients to improve their chances of creating a future family.
"They may prescribe less toxic drug regimens or refer them to specialists in fertility preservation," Woodruff said...
Ref : http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0058491
Monday, April 8, 2013
Positive results from Affinium Pharmaceuticals' Phase 2a clinical trial of AFN-1252 in ABSSSI
We know that, AFN-1252, is a selective inhibitor of Staphylococcus aureus enoyl-acyl carrier protein reductase (FabI), which is involved in fatty acid biosynthesis.
Now, Affinium Pharmaceuticals announced today that its Phase 2a clinical trial evaluating oral AFN-1252 in acute bacterial skin & skin structure infections (ABSSSI) demonstrated excellent efficacy and safety data, marking a significant proof-of-concept milestone for Affinium's first-in-class, novel antibiotic targeted against bacterial fatty acid biosynthesis inhibition (FabI inhibitors).
A clinical study in 103 patients from 18 centers in the USA and Canada confirms excellent efficacy, safety and tolerability of 200 mg of oral AFN-1252 dosed twice daily for 5-14 days in patients with acute bacterial skin and skin structure infections (ABSSSI) due to Staphylococcus". Patients were recruited from outpatient or emergency room settings. The enrolled patients had a variety of skin infections of ≥ 75 cm2 in size, including severe abscesses (38%), cellulitis (27%), and wound infections (35%). Investigators had the option of adding a second antibiotic to cover other potential pathogens or admitting the patient into the hospital. The vast majority of the patients were treated with oral AFN-1252 as monotherapy in the outpatient setting based on the suspicion of staphylococci from the clinical presentation and pretreatment Gram stain. This study fully utilized recent FDA guidances for clinical trials in ABSSSI, including both entry and efficacy criteria.
Saturday, April 6, 2013
Clinical Trials Move to the Petri Dish
The common antibiotic Zithromax received a new warning label from the U.S. Food and Drug Administration indicating it could cause dangerous arrhythmias in people with pre-existing heart conditions. Now, researchers at the Stanford University School of Medicine describe a “clinical trial in a dish” using patient-specific induced pluripotent stem, or iPS, cells to predict whether a drug will dangerously affect the heart’s function. The technique may be more accurate than the current in vitro drug-safety screening assays used by pharmaceutical companies, say the researchers, and may better protect patients from deadly side effects of common medications.
The technique allows scientists for the first time to test drugs directly on cells with mutations that cause hereditary cardiac diseases, rather than on the genetically modified human embryonic kidney cells or the Chinese hamster ovarian cells currently being used to detect cardiac toxicity.
The use of patient-specific iPS cells may help drug designers winnow heart-safe medications from those like the blockbuster anti-inflammatory drug Vioxx, which was withdrawn from the market because of unanticipated adverse cardiovascular events. It may also allow clinicians to identify sub-groups of patients, such as those with certain types of cardiac conditions, who should not be given certain drugs.
“Right now, the first time any drug sees a human heart cell is in a phase-1 clinical trial,” said Andrew Lee, a Stanford medical student and one of three lead authors of the study. “If adverse effects are seen, it can result in patient deaths, as in the case of the anti-inflammatory drug Vioxx or with cisapride, a drug previously used to treat digestive problems in people with diabetes. Right now, there are really no systematic studies to identify those people who are at risk.” Lee works in the laboratory of Joseph Wu, MD, PhD, who co-directs the Stanford Cardiovascular Institute, where the research was conducted.
The researchers anticipate that the technique, if adopted, could save millions of dollars and thousands of lives by streamlining the drug-testing process and increasing its sensitivity.
Friday, April 5, 2013
Soybeans can prevent cancer
Soybean meal is a bi-product following oil extraction from soybean seeds. It is rich in protein, which usually makes up around 40% of the nutritional components of the seeds and dependent on the line, and can also contain high oleic acid (a monounsaturated omega-9 fatty acid).
The study looked at the role soybeans could have in the prevention of cancer. Using a variety of soybean lines which were high in oleic acid and protein, the researchers looked to monitor bioactivity between the peptides derived from the meals of soybean and various types of human cancer cells.
The study showed that peptides derived from soybean meal significantly inhibited cell growth by 73% for colon cancer, 70% for liver cancer and 68% for lung cancer cells using human cell lines. This shows that the selected high oleic acid soybean lines could have a potential nutraceutical affect in helping to reduce the growth of several types of cancer cells.
Thursday, April 4, 2013
New class of anti-malarial compounds discovered
A group of researchers from 16 institutions around the world has identified a new class of anti-malarial compounds that target multiple stages of the malaria parasite's life cycle These compounds could potentially be developed into drugs that treat and prevent malaria infection. Known as 4-(1H)-quinolone-3-diarylethers, the candidate anti-malarials are derived from a compound called endochin that effectively treats malaria in birds. When tested in the laboratory and in mice, the compounds demonstrated strong activity againstPlasmodium falciparum and Plasmodium vivax, the two parasites that cause most human cases of malaria. Transmitted via a mosquito bite, malaria causes cycles of chills, fever and fatigue, and is responsible for roughly 660,000 deaths per year, according to the World Health Organization. New drugs are needed because of the emergence of malaria-inducing parasites that are resistant to existing medications.
Of the 4-(1H)-quinolones, the researchers focused their efforts on the compound ELQ-300, which inhibited malaria parasites during the erythrocytic stage, when they cause symptoms in humans; as well as during the gametocyte and developmental stages in the mosquito, when the parasites are transmitted. In addition, when ELQ-300 was administered to mice infected with the Plasmodium species that cause malaria in mice, the infection was cured. The study results also suggested that the compound could be adapted into a once-daily dose in humans and would be slow to engender resistance. The researchers are currently proceeding with preclinical development of ELQ-300 (see the structure below).
Ref :1. http://www.niaid.nih.gov/news/newsreleases/2013/Pages/ELQ300.aspx
2. http://stm.sciencemag.org/content/5/177/177ra37.short?rss=1
2. http://stm.sciencemag.org/content/5/177/177ra37.short?rss=1
New class of anti-malarial compounds discovered
Tuesday, April 2, 2013
Drug treatment corrects autism symptoms in mouse model
The researchers tested suramin, a well-known inhibitor of purinergic signaling used medically for the treatment of African sleeping sickness since shortly after it was synthesized in 1916 -- in mice. They found that this APT mediator corrected autism-like symptoms in the animal model, even if the treatment was started well after the onset of symptoms. The drug restored 17 types of multi-symptom abnormalities including normalizing brain synapse structure, cell-to-cell signaling, social behavior, motor coordination and normalizing mitochondrial metabolism.
"The striking effectiveness shown in this study using APT to 'reprogram' the cell danger response and reduce inflammation showcases an opportunity to develop a completely new class of anti-inflammatory drugs to treat autism and several other disorders," Naviaux said.
Ref : http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0057380
Monday, April 1, 2013
Disinfectant mouthwashes may be effective against cancers of the mouth and throat
Patients who suffer from gingivitis are often advised to use disinfectant mouthwashes. In the future, the active ingredients in these products could be used in a completely different area. Chlorhexidin and Alexidin increase programmed cell death and may be effective against cancers of the mouth and throat.
Berg and his co-workers were successful: Chlorhexidin (below left structure), the active component in commercial oral disinfectants such as Chlorhexamed, Chlorhexal, Periogard, Corsodyl, and Chlorohex; as well as Alexidin (below right structure), the active component in Esemdent, both inhibit the binding of the apoptosis inhibitor to the apoptosis trigger. Chlorhexidin's effect is specific, while Alexidin has additional very weak effects on other proteins.
Why are apoptosis proteins interesting? Apoptosis is decreased in tumor cells, so the cells do not die off and continue to divide. One reason for this is that they produce too much of the apoptosis-inhibiting protein. In experiments with cultures of cells from various tongue and throat carcinomas, both compounds caused increased apoptosis. This effect is much stronger in the cancer cells than in healthy cells. It may be possible to use these drugs in therapeutic applications.
The researchers hope to find other protein-protein interactions that could be targeted with approved small-molecule drugs....
http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1521-3773/homepage/press/201311press.html
Disinfectant mouthwashes may be effective against cancers of the mouth and throat
Sunday, March 31, 2013
Saturday, March 30, 2013
Japanese P2 study shows potential of combined vaccine and steroid drug in castration resistant PCa
In continuation of my update on dexamethasone
Multi-peptide vaccination therapy combined with the low-dose steroid drug dexamethasone shows promise in treating chemotherapy-naive castration resistant prostate cancer (CRPC) patients.
Friday, March 29, 2013
New drugs may improve quality of life for people with Parkinson's disease
In the study, 225 people were randomized to receive either eight weeks of stable dose treatment with a placebo or the drug droxidopa, (see structure)
which converts to norepinephrine. After one week of stable treatment, those who received the drug had a clinically meaningful, two-fold decrease in the symptoms of dizziness and lightheadedness, when compared to placebo. They also had fewer falls, or 0.38 falls per patient per week, compared to 1.73 for those receiving a placebo on average over the entire 10-week study duration.
The second study looked at treatment with a new drug for "wearing-off" that occurs with people who have been taking levodopa for several years. As each dose wears off, people experience longer periods of time where the motor symptoms do not respond to levodopa. For the study, 420 people who were experiencing an average of six hours of "off" time per day received a placebo or one of four dosages of the drug tozadenant in addition to their levodopa for 12 weeks. People receiving two of the dosages of the drug had slightly more than an hour less off time per day at the end of 12 weeks than they had at the start of the study. They also did not have more troublesome involuntary movements during their "on" time, called dyskinesia, that can occur.
The third study looked at 321 people with early Parkinson's disease whose symptoms were not well-controlled by a dopamine agonist drug. For the 18-week study, the participants took either the drug rasagiline or a placebo in addition to their dopamine agonist. At the end of the study, those taking rasagiline had improved by 2.4 points on a Parkinson's disease rating scale. In addition, rasagiline was well tolerated with adverse events similar to placebo.
Wednesday, March 27, 2013
Breakthrough in battle against leukemia
The research team has demonstrated that leukaemic cells can be eradicated by removing a carbohydrate modification displayed on the cell's surface.
Director of Griffith University's Institute for Glycomics, Professor Mark von Itzstein is the Australian team leader. He said the discovery is an important advance against leukemia, a cancer of malignant white blood cells that multiply uncontrollably. Acute lymphoblastic leukemia (ALL) is the most common childhood cancer.
"We have found that the leukaemic cell has an altered cell surface carbohydrate decoration compared to normal cells and this also conveys resistance to drug treatment," Professor von Itzstein said.
"We have now shown that with the removal of this carbohydrate alteration the cells die."
Professors Nora Heisterkamp and John Groffen, leaders of the US-based team, Professor von Itzstein and their colleagues have published their research findings in the latest edition of the Journal of Experimental Medicine.
Professor von Itzstein said the research could lead to new ways to fight the disease, particularly where it has become treatment resistant.
"Up until 40 years ago, only one child in five survived ALL," but advances in chemotherapy have changed that outcome and now nearly 80 percent of children with ALL will be cured," Professor von Itzstein said.
"For the remaining 20 percent, however, the disease returns necessitating additional rounds of intensive chemotherapy. Unfortunately, most relapsed patients die within one year because their cancer cells are resistant to chemotherapy.
Monday, March 25, 2013
Drug may improve outcomes after heart attack
We know that, Eplerenone (INN) is an aldosterone antagonist used as an adjunct in the management of chronic heart failure. It is similar to the diuretic spironolactone, though it is much more selective for the mineralocorticoid receptor in comparison (i.e., does not possess any antiandrogen, progestogen, or estrogenic effects), and is specifically marketed for reducing cardiovascular risk in patients following myocardial infarction. It is marketed by Pfizer under the trade name Inspra. Eplerenone is a potassium-sparing diuretic, meaning that it helps the body get rid of water but still keep potassium....
Now,
The REMINDER (Reduction of heart failure morbidity in patients with acute ST-elevation myocardial infarction) trial was a randomized, double-blind trial of 1,012 patients who had a heart attack caused by a complete blockage of one of the heart's arteries. Patients had no signs or history of heart failure. They were given either eplerenone or placebo in addition to standard therapy. Overall, patients taking eplerenone were 38 percent less likely to have poor outcomes than those given a placebo.
Eplerenone counteracts a hormone called aldosterone, which can increase blood pressure. The drug is currently approved to treat hypertension and as a treatment for patients who have heart failure several days after a heart attack.
"This is the first randomized trial to test a mineralocorticoid receptor agonist during the acute phase of heart attack, and the results suggest a clinical benefit," said Gilles Montalescot, MD, PhD, lead investigator of the study and professor of cardiology and head of the Cardiac Care Unit at Pitié-Salpétrière Hospital, Paris.
About 5.8 million Americans have heart failure, a condition in which the heart cannot pump enough blood to meet the body's oxygen and energy needs. Improvements in heart attack treatment have increased chances of survival, but damage after heart attack is one risk factor for heart failure. Clinical trials and registries show that in the 30 days after a first heart attack, between 8.6 percent and 40 percent of patients will be diagnosed with heart failure.
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