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Tuesday, September 04, 2007

Science Matters: A small personalized medicine bailout for Cox-2s?

There was little attention paid to last week's paper suggesting that PPAR delta agonists might be used to prevent the cardiovascular side effects of Cox-2 inhibitors (coxibs) such as Vioxx and Celebrex.

The study in the Journal of Experimental Medicine (JEM) showed that Cox-2 suppresses the expression of tissue factor (TF) -- the primary activator of blood clotting and a proximal cause of coxibs' CV problems -- via the activation of PPAR delta.

Of course, there are no approved PPAR delta drugs, although pharmas including GSK have tried developing them to treat cardiovascular disease. (One news outlet suggested GSK's drug could be an "unlikely savior" for Vioxx, but that's a far stretch.) And no one would think to couple a PPAR delta with a coxib for use as a combination analgesic--the risk/benefit ratio of that presumably is way off.

But there's another, intriguing aspect to this research result.

The problem with Vioxx is that it is associated with cardiovascular complications in a small number of patients. "We should look at these patients in terms of their TF levels and other clotting parameters," suggests Timothy Hla of the University of Connecticut Health Center and a principal author of the JEM paper. "Is the TF gene in these people somehow different? Is it regulated differently? Are they more sensitive or more resistant to the effects of the PPAR delta they produce? Instead of looking at the selectivity of Cox-2, let's look at patients' sensitivity."

Hla has a longstanding interest in Cox-2's role in normal blood vessel physiology and angiogenesis: he cloned the gene from human vascular cells in and named it Cox-2 in 1992, while at the American Red Cross Research Institute.

A first step would be to measure TF levels, which can be easily collected from plasma, in patients taking Celebrex and correlate them with treatment results. It's all well and good to talk about testing PPAR delta agonists for their therapeutic effects regulating the TF gene. (The most advanced may be GSK's GW 501516, which the Hla group used in its experiments. GSK in-licensed the compound from Ligand Pharmaceuticals, but its development has lagged at Phase II. Ligand's most recent 1o-K says the drug's development is 'on hold' pending the review of preclinical studies, and there is no mention of it on GSK's own clinical trials web site or in any recent publicity [clintrials.gov lists a 'completed' Phase II study], so for all we know it has been terminated.)

So that's a long way off. Most of the focus on the mechanism of Cox-2 has centered on its effect on platelets. A simple blood test might go a long way towards refining that effort.

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