Monday, November 30, 2009

S-methylmethionine (Vitamin U) as antiulcer agent .......

About S-methylthionine :

S-Methylmethionine, or S-methyl-L-methionine, is a derivative of methionine In plants, it is produced from methionine by the enzyme methionine S-methyltransferase. S-Methyl- methionine is sometimes called vitamin U in naturopathic medicine, but it is not recognized as a vitamin by mainstream nutrition science. Methionine in itself has not been demonstrated as effective for treating peptic and duodenal ulcers. Its proponents claim that sources of methionine are limited, or claim it can be found only in raw cabbage; however, these claims are incorrect. Methionine is a common amino acid found in a wide variety of fruits, vegetables, and legumes.

More interesting results by the researchers from the Stanford University, have further substantiated the claim that it can be used to treat peptic and duodenal ulcers.

Acetaminophen is a pain reliever present in many over-the-counter cold and flu medicines. It is broken down, or metabolized, in the body into byproducts , one of which can be very toxic to the liver. At normal, therapeutic levels, this byproduct is easily deactivated when it binds to a naturally occurring, protective molecule called glutathione. But the body's glutathione stores are finite, and are quickly depleted when the recommended doses of acetaminophen are exceeded. Acetaminophen overdose is the most common cause of liver transplantation and the only effective antidote is an unpalatable compound called NAC that can induce nausea and vomiting, and must be administered as soon as possible after the overdose.

As per the claim by the authors, an enzyme called Bhmt2 helped to generate more glutathione. Bhmt2 works by converting the diet-derived molecule S-methylmethionine, or SMM, into methionine, which is subsequently converted in a series of steps into glutathione. The researchers confirmed the importance of the pathway by showing that SMM conferred protection against acetaminophen-induced liver toxicity only in strains of mice in which the Bhmt2 pathway was functional.

By administering SMM, which is found in every flowering plant and vegetable, we were able to prevent a lot of the drug’s toxic effect,” said Peltz. He and his colleagues are now working to set up clinical trials at Stanford to see whether it will have a similar effect in humans. In the meantime, though, he cautions against assuming that dosing oneself with SMM will protect against acetaminophen overdose....

Source : http://med.stanford.edu/ism/2009/november/peltz.html

Sunday, November 29, 2009

Top 10 Amazing Chemistry Videos

Top 10 Amazing Chemistry Videos

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Mode of action of tetrathiomolybdate (a drug for Wilson's disaese) established ?

We know that Ammonium tetrathiomolybdate ([NH4]2MoS4), was first used therapeutically in the treatment of copper toxicosis in animals. It was then introduced as a treatment in Wilson's disease, a hereditary copper metabolism disorder, in humans; it acts both by competing with copper absorption in the bowel and by increasing excretion. It has also been found to have an inhibitory effect on angiogenesis, potentially via the inhibition of Cu ion dependent membrane translocation process invovling a non-classical secretion pathway. This makes it an interesting investigatory treatment for cancer, age-related macular degeneration, and other diseases featuring excessive blood vessel deposition. Though the activity was established mode of action was to be established. Now researchers from Northwestern University , have achieved something which was eluding so for. As per the claim by the researchers, the three-dimensional structure of TM bound to copper-loaded metallochaperones. The drug sequesters the chaperone and its bound copper, preventing both from carrying out their normal functions in the cell. For patients with Wilson disease and certain cancers whose initial growth is helped by copper-dependent angiogenesis, this is very promising. O'Halloran and his research team studied the copper chaperone protein Atx1, which provides a good model of copper metabolism in animal cells.

The drug brings three copper chaperones into close quarters, weaving them together through an intricate metal-sulfur cluster in a manner that essentially shuts down the copper ferrying system.

The nest-shaped structure of the metal-sulfur cluster discovered by the researchers was completely unanticipated. The sulfur atoms in the tetrathiomolybdate bound to the copper atoms to form an open cluster that bridged the chaperone proteins. In this manner, three copper proteins were jammed onto one thiomolybdate. More interestingly the structure of the complex has been concluded by X-ray studies. Based on the structure and additional experiments, the scientists propose that the drug inhibits the traffic of copper within the cell because of its ability to sequester copper chaperones and their cargo in clusters, rendering the copper inactive.

Copper also is an important cofactor for tumor angiogenesis, the process of growing new blood vessels to feed the tumor. Researchers believe this is why tetrathiomolybdate has shown promise as an anti-cancer drug. Hope the clinical trials (phase II) of tetrathiomolybdate (as anticancer drug) a success and wide applications of this drug (as amyotrophic lateral sclerosis (ALS), Parkinson's disease, multiple sclerosis and Alzheimer's disease, primary pulmonary hypertension and left ventricular hypertrophy) will help patients to breathe a sigh of relief...

Ref : http://www.northwestern.edu/newscenter/stories/2009/11/crystal.html

Saturday, November 28, 2009

Palmitoylethanolamide - a natural body fat as antiinflammatory agent !

About Palmitoylethanolamide : Palmitoylethanolamide, is an endogenous fatty acid amide which has been demonstrated to bind to peroxisome proliferator-activated receptor alpha (PPAR-α) , GPR55 and GPR119. PEA has been shown to have anti-inflammatory and anti-nociceptive properties. PEA is metabolized by fatty acid amide hydrolase (FAAH) and N-acylethanolamine-hydrolyzing acid amidase (NAAA), the latter of which has more specificity towards PEA over other fatty acid amides.

For decades, it has been known that palmitoylethanolamide (PEA), is a potent anti-inflammatory substance that reduces both allergic symptoms and occurrences of rheumatic fever, but researchers understood little about how PEA works. But now Daniele Piomelli, the Louise Turner Arnold (Chair in Neurosciences at UCI), and colleagues found that levels of PEA are tightly regulated by immune system cells. In turn, PEA helps control the activity of these cells, which are called into action to fight infection, disease and injury in the body. In addition, they found that PEA - also present in foods like eggs and peanuts , is deactivated by a protein called N-acylethanolamine-hydrolyzing acid amidase, which is an enzyme that breaks down molecules controlling cell inflammation.

When given to rodents, the compound increased the levels of PEA in their immune cells and reduced the amount of inflammation elicited by an inflammatory substance. Furthermore, when administered to the spinal cords of mice after spinal cord injury, the compound decreased inflammation associated with the trauma and improved the recovery of motor function.

As most of the antiinflammatory drugs available these days have side effects, this drug may be a boon to the sufferers....

Ref : http://today.uci.edu/news/nr_PEA_091116.php

Generating electricity from air flow

A group of researchers at the City College of New York is developing a new way to generate power for planes and automobiles based on materials known as piezoelectrics, which convert the kinetic energy of motion into electricity


Details ..........Generating electricity from air flow

siRNA for pachyonychia congenita treatment...

In continuation of my update on siRNAs, I found this recent development an interesting finding in the field of RNAi class of compounds. Dr. Sancy Leachman and co workers found that siRNA derivative can be a new treatment for pachyonychia congenita, an ultra-rare genetic skin condition caused by mutations in a gene called keratin.

As per the claim by the authors, siRNA, works by preventing the gene with the mutation from being expressed but permitting the healthy keratin genes to function normally. The study marked the first time that the skin of a human subject was treated with this type of drug. Researchers say that in this single patient trial the drug worked, had no serious side effects, and has vast potential because of its ability to specifically and potently target single molecules, making it an option for many other genetic diseases, including cancer.

The patient was treated with siRNA on her right foot and with placebo on the left foot. The callus on the right foot that received the siRNA fell off at the site of injection, but this did not happen on the left foot. Congrats for this remarkable achievement...

Source : http://healthcare.utah.edu/dermatology/about/faculty/sancyleachman.html

Friday, November 27, 2009

Molecule discovered that makes obese people develop diabetes

Molecule discovered that makes obese people develop diabetes

New Drug Application for Tramadol....


About Tramadol :

Tramadol is a centrally acting analgesic, used for treating moderate to severe pain. Tramadol was developed by the German pharmaceutical company Grünenthal GmbH in the late 1970.

Tramadol possesses agonist actions at the μ-opioid receptor and affects reuptake at the noradrenergic and serotonergic systems. Tramadol is a compound with mild and delayed μ-agonist activity.

Tramadol is a synthetic stripped-down analog of Codeine and, as such, is an opioid. The opioid agonistic effect of tramadol and its major metabolite(s) almost exclusively effects the μ-opioid receptor. This characteristic is notable, because even morphine is not exclusive to the μ-receptor, although it manifests the preponderance of its opioid agonistic effects here. Tramadol is used to treat moderate to moderately severe pain and most types of neuralgia, including trigeminal neuralgia.

Recently, Par Pharmaceutical Companies, Inc received FDA approval for the abbreviated New Drug Application for the 100mg and 200mg strengths of tramadol ER.....

Source : http://www.parpharm.com/media/NR_20091116.jsp