News Release

Scripps Research Scientist Discovers Natural Molecule Indirectly Prevents Stable Clot Formation

The Findings Suggest a Possible Novel Target for the Treatment of Hemophilia A

La Jolla, CA – January 31, 2011 – A scientist from The Scripps Research Institute has identified a new role for a natural signaling molecule in preventing blood clot formation. The molecule could become a target for the development of novel and cost-effective treatments for blood clotting diseases such as Hemophilia A.

The findings, from a study by Scripps Research Assistant Professor Laurent O. Mosnier, were published in a recent edition of Journal of Biological Chemistry.

The study focused on Platelet Factor 4 – a small cytokine (intracellular signaling molecule) released during platelet aggregation.

Based on Platelet Factor 4 effects on another coagulation protein, it was thought that Platelet Factor 4 could potentially stimulate activation of thrombin-activatable fibrinolysis inhibitor (TAFI) – an enzyme (soluble protein) that protects clot longevity, making clots last longer and preventing excess bleeding; TAFI is like a hardener that is added to the mortar used between the bricks in a brick wall, without which the mortar would never completely solidify, and the wall would never be solid. 

The new study, however, found exactly the opposite role for Platelet Factor 4—inhibition of TAFI activation.

For Mosnier, this finding led to a radical idea—sequestering Platelet Factor 4 using such molecules as heparin derivatives could improve clot stability. Heparin  - a highly sulfated or negatively charged glucoseaminoglycan (polysaccharide or sugar derivative) – is a commonly used anticoagulant. Mosnier, however, was able to modify the compound to have the reverse effect and aid in blood clotting in laboratory tests.

 “The idea of using heparin to prevent bleeding in kids [who have bleeding tendencies] would be outrageous because that would just greatly accelerate bleeding,” said Mosnier, “Our trick, however, was to modulate heparin’s anticoagulant properties. This opens up new possibilities.” 

Converting Heparin from an Anticoagulant into a Non-Anticoagulant

Heparin’s anticoagulant activity is derived from a specific pattern of nitrogen- and oxygen-linked sulfation (or simply negative charges) that is recognized by anti-thrombin – the inactivator of coagulation.  However, in addition to binding to anti-thrombin heparin also binds to Platelet Factor 4, which is glittered with positive charge, and they attract one another like magnets. 

Mosnier found heparin’s anticoagulant activity could be prevented, and its Platelet Factor 4 binding selected for, by selectively removing the N-linked sulfations (and further acetylation).  This effectively prevented heparin from being recognized by anti-thrombin and allowed it to instead take the Platelet Factor 4 out of the equation.  This resulted in prevention of clot breakdown (fibrinolysis), by allowing TAFI to do its job.

To test the effectiveness of the modified heparin derivatives in enhancing clot stability, Mosnier employed a functional assay called a “clot lysis assay.” Using a light scattering technique, plasma was used to generate a clot, which was degraded. Further modulation of the conditions allowed measurement of clot stability via TAFI activation. Mosnier found that, indeed, the modified-version heparin promoted clot stability.

Toward a Cheaper, Cost-Effective Treatment for Hemophilia A

An optimistic Mosnier admits his new discovery is in its infancy, but hopes it may one day provide an alternative treatment for bleeding conditions such as Hemophilia A.  

Hemophilia A, which affects 1 in 5,000 males, is an X-linked genetic bleeding disorder whereby there is a reduced amount or activity of factor VIII.  This results in the unstable clots, lacking fibrin – a fibrous clot-forming protein. Currently, the treatment for Hemophilia A is prophylactically taking factor VIII as a medicine to improve clotting. Unfortunately, immunity against factor VIII is a significant side effect. 

Mosnier hopes that modification of heparin – which is cheaper than factor VIII and already used clinically – could one day stabilize clots in these patients.

“The next step is to see if the modified compound will improve bleeding complications in the Hemophilia mouse,” said Mosnier. “We are still a long way from claiming anything clinically.”

His optimism is contagious, however, and it is an exciting time for science in the Mosnier lab.

Professor Laurent O. Mosnier of the Scripps Research Institute was sole author of the study, “Platelet Factor 4 Inhibits Thrombomodulin-dependent Activation of Thrombin-activatable Fibrinolysis Inhibitor (TAFI) by Thrombin.” For more information, see http://www.jbc.org/content/286/1/502.full?sid=7795e622-9966-4a9a-b999-0eb4d69e474a.

This research was funded by a “Pathway to Independence Grant,” which enabled the establishment of the Mosnier Lab, from the National Institute of Health (NHLBI Grant HL087618).

About The Scripps Research Institute

The Scripps Research Institute is one of the world's largest independent, non-profit biomedical research organizations, at the forefront of basic biomedical science that seeks to comprehend the most fundamental processes of life. Scripps Research is internationally recognized for its discoveries in immunology, molecular and cellular biology, chemistry, neurosciences, autoimmune, cardiovascular, and infectious diseases, and synthetic vaccine development. An institution that evolved from the Scripps Metabolic Clinic founded by philanthropist Ellen Browning Scripps in 1924, Scripps Research currently employs approximately 3,000 scientists, postdoctoral fellows, scientific and other technicians, doctoral degree graduate students, and administrative and technical support personnel. Headquartered in La Jolla, California, the institute also includes Scripps Florida, whose researchers focus on basic biomedical science, drug discovery, and technology development. Scripps Florida is located in Jupiter, Florida. For more information, see www.scripps.edu.

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