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

Experimental cholesterol drug, REGN727 (PCSK9 inhibitor) results called ‘game changing

In continuation on my update on drug discovery in the class of  Monoclonal antibodies

Researchers have known for some time that when the protein PCSK9, (below structure) which stands for proprotein convertase subtilisin/kexin 9, binds to LDL receptors on the liver, it compromises the organ’s ability to filter the bad cholesterol from the blood.

Too much LDL cholesterol circulating in the blood can lead to the thickening of artery walls, making them less flexible and therefore impairing their function and increasing the risk of heart disease.

In a phase one clinical trial, which is designed to determine if a drug is safe, researchers found that using a monoclonal antibody (lab-produced protein) called REGN727, was not only safe, but effectively blocked PCSK9 and therefore signficantly reduced bad cholesterol in healthy patients as well as those also taking the popular cholesterol-lowering drug Lipitor.

“Wars for PCSK9 are far bigger than the statin wars,” said Dr. Evan A Stein, lead author of the study and researcher at the Metabolic and Atherosclerosis Research Center in Cincinnati, Ohio. “This is a hot research area and everybody is so close together.”

The REGN727 study included three trial arms. Two arms used 72 healthy volunteers who were either injected with a single dose of the drug in increasing amounts to test for side effects, which is the purpose of a phase one clinical trial.  A third arm included 21 people with a family history of high cholesterol, and 30 people with nonfamilial high cholesterol. All of those subjects were also receiving treatment with the statin Lipitor.

A control group of subjects with nonfamilial high cholesterol was treated only with a special diet.  None of the subjects who received REGN727 discontinued the study because of adverse effects, and the subjects who received REGN727 had a striking reduction of 60 to 65%  in LDL cholesterol, according to Stein.

A PCSK9 inhibitor, Stein said, differs from statins “because it’s unlike any other drug. With statins you get toxicity – with these drugs we don’t see any side effects with the antibody.”

In an accompanying editorial, authors Dr. Stephen G. Young, and Loren G. Fong, Ph.D. write: “At this point, the status of PCSK9 therapeutics appears to be full speed ahead. Soon, we can expect more human trials in which investigators will dissect the properties of different PCSK9 antibodies and assess the effect of these agents.”

However, without long-term safety data and evidence that PCSK9 inhibitors truly help prevent heart disease, Young and Fong caution that it will remain unclear how important this class of drugs will be.

The cost of this drug will also play a role in determining which patients might use it, Fong and Young say.  But they also note that “patients who cannot tolerate statins could benefit greatly.”

Researchers also claim that,  the study methodology was thorough because it included people with high cholesterol as well as people with genetic familial high cholesterol, which is proven to be a result of impaired PCSK9 genetic function.

Researchers have known for some time that when the protein PCSK9, which stands for proprotein convertase subtilisin/kexin 9, binds to LDL receptors on the liver, it compromises the organ’s ability to filter the bad cholesterol from the blood.

Researchers conclude that, In three phase 1 trials, a monoclonal antibody to PCSK9 significantly reduced LDL cholesterol levels in healthy volunteers and in subjects with familial or nonfamilial hypercholesterolemia.

Ref : http://www.nejm.org/doi/full/10.1056/NEJMoa1105803

Study shows statin therapy not associated with cancer

Study shows statin therapy not associated with cancer

No Firm Conclusions About HDL Cholesterol Can Be Drawn from JUPITER Sub-Analysis

The European Society of Cardiology (ESC) is concerned that interpretations of a paper about cholesterol, published in the Lancet , could act to deter ongoing research efforts into developing new therapeutic strategies to increase high density lipoprotein (HDL) cholesterol. Caution, the ESC experts advise, should be displayed in the interpretation of the results.....

In the Lancet study, Paul Ridker and colleagues, from Brigham and Women's Hospital (Boston, MA, USA), undertook a retrospective post-hoc analysis of the JUPITER trial. The results show that if a normal, healthy individual has level of low density lipoprotein (LDL), known as "bad cholesterol", substantially lowered with a potent statin, then the level of HDL "good cholesterol" in that person no longer bears any relation to the remaining cardiovascular risk. More.....

Ref : http://www.thelancet.com/journals/lancet/article/PIIS0140-6736%2810%2960713-1/fulltext

Lovastatin: A New Weapon Against Plague?

We know that, Lovastatin is a member of the drug class of statins,  used for lowering  cholesterol (hypolipidemic agent) in those with hypercholesterolemia and so preventing cardiovascular disease. Lovastatin is a naturally occurring drug found in food such as oyster mushrooms  and red yeast rice.

Now scientists at the Unité de Recherche sur les Maladies Infectieuses et Tropicales Emergentes (CNRS/Université Aix-Marseille 2), have found that Lovastatin protects animals against the deadly effects of plague.

After inoculating small rodents with the Yersinia pestis bacterium, the team led by Didier Raoult and Michel Drancourt at the URMITE (CNRS/Université Aix-Marseille 2) showed that animals treated with lovastatin presented fewer and less severe infections. Lovastatin therefore has preventive properties against plague mortality in an animal model. This experimental study also reveals that this statin has no direct antibiotic effect against Yersinia pestis but that it prevents the development of septicemia.  

Researchers conclude that Lovastatin had no in-vitro antibiotic effect against Y. pestis. The difference in the mortality between control mice (11/15; 73.5%) and lovastatin-treated mice (3/15; 20%) was significant (P<0.004; Mantel-Haenszel test). Dead mice exhibited Y. pestis septicemia and inflammatory destruction of lung and spleen tissues not seen in lovastatin-treated surviving mice. These data suggest that lovastatin may help prevent the deadly effects of plague, with a caution that field observations are warranted to assess the role of lovastatin in the prophylaxis of human plague....

Ref : http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0010928

Flaxseed lowers high cholesterol in men.....

Flax (also known as common flax or linseed) (Linum  usitatissimum) is a member of the genus Linum in the family Linaceae. It is native to the region extending from the eastern Mediterranean to India.  This is called as Agasi/Akshi in Kannada, Jawas/Javas (जवस) or Alashi (अळशी) in Marathi.  

Flax seeds come in two basic varieties brown yellow or golden. Most types have similar nutritional characteristics and equal amounts of short-chain omega-3 fatty acids. The exception is a type of yellow flax called Linola or solin, which has a completely different oil profile and is very low in omega-3. Although brown flax can be consumed as readily as yellow, and has been for thousands of years, it is better known as an ingredient in paints, fiber and cattle feed. Flax seeds produce a vegetable oil known as flaxseed or linseed oil, which is one of the oldest commercial oils and solvent-processed flax seed oil has been used for centuries as a drying oil in painting and varnishing. 

Flaxseeds are rich in alpha linolenic acid (ALA), an omega-3 fat that is a precursor to the form of omega-3 found in fish oils called eicosapentaenoic acid or EPA. Many benefits like 1. anti-iflammatory benefits, 2. omega-3-rich flaxseeds protect bone health, 3.protection against heart disease, cancer and diabetes, 4. flaxseeds help prevent and control high blood pressure. And even it helps to control some types of cancers.

Earlier report says,  Flaxseed provides comparable cholesterol-lowering benefits to statin drugs. Now this has been further substantiated by researchers from Iowa State University's (ISU) Nutrition and Wellness Research Center (NWRC).

Suzanne Hendrich, an ISU professor in food science and human nutrition, led a study that examined the effects of flaxseed lignan in 90 people diagnosed with high cholesterol. The results showed that consuming at least 150 milligrams of flaxseed lignans per day (about three tablespoons) decreased cholesterol in men, but not women, by just under 10 percent over the three months that they were given the flaxseed.  Suzanne concludes that though the result is  considerably less than the expected outcome from cholesterol-lowering drugs -- approximately 10 to20 percent for three months, depending on the individual -- it's still enough to make flaxseed a more natural option for some men. While the study found that the flaxseed lignans lowered cholesterol in men, it did not produce a significant change in women. More.... 

Ref : http://www.news.iastate.edu/news/2010/mar/flaxseed

(Those interested in knowing the other benefits of flax seed can read the article..)

Eprotirome a promising addition to statin therapy ?

People with bad cholesterol have  risk of  future heart disease,  despite  cholesterol-lowering statin therapy. Now researchers from  Johns Hopkins have come up with interesting finding i.e.,  a drug that mimics the action of thyroid hormone [Eprotirome (new generic name for KB2115) structure source : chemBlink)  lowered cholesterol up to 32 percent in those already on statins, an effect equal to that expected from doubling the statin drug doses, without harmful side effects. 

Interestingly, the researchers caution that the results don't suggest that eprotirome will or should replace statins, which are the current gold standard for treating high LDL cholesterol.

However, the results of their small trial on 168 patients do suggest that eprotirome may eventually be a promising addition to statin therapy, a substitute for statins in people who can't tolerate their side effects, or a novel treatment for mixed dyslipidemia, a condition in which people have high levels of lipids other than cholesterol such as triglycerides or apolipoprotein B (apo B).

The researchers found that among the patients taking the 25, 50 or 100 mg doses of eprotirome reduced their LDL cholesterol levels by 22 percent, 28 percent, and 32 percent respectively, compared to only 6.5 percent in those taking placebo. Remarkably, they also found similar dose-related reductions in triglycerides, apo B, and Lp(a). They also found modest reductions in HDL cholesterol of approximately 3 percent.

As per the claim by the lead researcher Dr. Paul W. Ladenson,   'this drug represents a new class of medications that might offer hope to those at risk of future cardiovascular disease whose lipid profiles are not effectively altered with statin therapy, and perhaps for about a quarter of those who have tried statins but cannot tolerate their side effects'. Dr. Ladenson is a consultant to Karo Bio, maker of eprotirome.......

Ref : http://content.nejm.org/cgi/content/short/362/10/906