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New Drug Could Reduce Tissue Damage After Heart Attack

Date:
April 28, 2006
Source:
University College London
Summary:
A study led by UCL (University College London) scientists has designed a new drug that inhibits the adverse effects of C reactive protein (CRP), a protein that contributes to tissue damage in heart attacks and strokes. The findings, published in the journal Nature, suggest that targeting CRP may produce both immediate and long-term clinical benefits following a heart attack.
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A study led by UCL (University College London) scientists has designed a new drug that inhibits the adverse effects of C reactive protein (CRP), a protein that contributes to tissue damage in heart attacks and strokes. The findings, published in the journal Nature, suggest that targeting CRP may produce both immediate and long-term clinical benefits following a heart attack.

CRP is normally present at trace levels in the blood but its concentration increases sharply in almost all diseases including trauma, infection, strokes and chronic illnesses such as rheumatoid arthritis and Crohn's disease. CRP levels also rise dramatically after a heart attack. Patients with the greatest and most persistent increases in CRP concentration suffer higher mortality, and CRP is always deposited in and around the damaged heart tissue.

Inflammation contributes significantly to the extent of heart attack damage and this can be exacerbated by CRP. The UCL team has previously shown that human CRP increases the severity of damage in experimental models of heart attack and stroke. This first identified CRP as a valid therapeutic target. The present collaborative study has now rationally designed a potent small molecule inhibitor of CRP.

The new compound, bis(phosphocholine)-hexane, is bound by CRP, inhibits all CRP functions in the test tube, and blocks the tissue damaging effect of CRP in an experimental heart attack model.

Professor Mark Pepys, of the UCL Centre for Amyloidosis and Acute Phase Proteins, whose work on CRP has been supported by the Medical Research Council since 1979, says: "Although heart attacks are responsible for about one third of all deaths in developed countries, most patients survive a first heart attack. However, if they have a large scar, patients go on to develop heart failure which is eventually fatal. Reducing the immediate damage is thus critically important.

"We had previously invented a new mechanism of drug action for small molecules bound by target proteins. Coupled with knowledge of the structure and properties of CRP, we were able to design the CRP inhibitor.

"We now propose to develop a CRP inhibitor as rapidly as possible for testing in patients with heart attacks.

"The drug would be given as soon as patients arrived in hospital. If effective, it would reduce the amount of damage in the heart, thus limiting both early mortality and the size of the scar left in the heart.

"Provided adequate support is available, it should be possible to undertake clinical trials of CRP inhibition within a couple of years. If the treatment proves safe and effective, we also aim to investigate its effectiveness in strokes.

"It is likely that CRP contributes to tissue damage in a range of diseases in which CRP levels are greatly increased, and the inhibition of CRP may thus find broad application in medicine."

Patents, patent applications and proprietary knowledge related to this work are owned by Pentraxin Therapeutics Ltd, a UCL spin out company of which Professor Pepys is director.


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Materials provided by University College London. Note: Content may be edited for style and length.


Cite This Page:

University College London. "New Drug Could Reduce Tissue Damage After Heart Attack." ScienceDaily. ScienceDaily, 28 April 2006. <www.sciencedaily.com/releases/2006/04/060428152534.htm>.
University College London. (2006, April 28). New Drug Could Reduce Tissue Damage After Heart Attack. ScienceDaily. Retrieved May 23, 2017 from www.sciencedaily.com/releases/2006/04/060428152534.htm
University College London. "New Drug Could Reduce Tissue Damage After Heart Attack." ScienceDaily. www.sciencedaily.com/releases/2006/04/060428152534.htm (accessed May 23, 2017).

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