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Bio-engineered molecule shows promise for quick control of bleeding

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Every five minutes someone in the U.S. dies from a blood clot, through its role in strokes, heart attacks or other severe conditions. For decades, doctors have used the anticoagulant drug warfarin (Coumadin) to prevent clots. More recently, newer anticoagulants such as Xarelto, Eliquis and Pradaxa, considered safer and more convenient than warfarin, have gained greater acceptance.

However, all anticoagulants increase the risk of bleeding. So when a patient undergoes emergency surgery or suffers a life-threatening event such as a head bleed, there may be a need to rapidly reverse or counteract anticoagulation. While countermeasures exist for warfarin, there are currently no approved countermeasures for the newer drugs that specifically block coagulation factor Xa (FXa), a key molecule in blood clotting.

Now hematology researchers have developed a novel genetically engineered clotting factor that can control bleeding in animal models. If the factor proves effective in humans, it may provide a quick-acting countermeasure for surgery patients and others vulnerable to serious bleeding as a result of new blood-thinning drugs.

"This molecule holds the potential to fill an important unmet clinical need," said study leader Rodney A. Camire, PhD, a hematology researcher in the Raymond G. Perelman Center for Cellular and Molecular Therapeutics at The Children's Hospital of Philadelphia (CHOP). "There are limited treatment options to stop uncontrolled bleeding in patients who are using the newer anticoagulant medications."

Camire and colleagues are from CHOP and the Perelman School of Medicine at the University of Pennsylvania and co-authored the study appearing today in Nature Medicine.

Camire's team developed the molecule by modifying coagulation FXa, a naturally occurring protein active in blood clotting. Using bioengineering techniques, the researchers altered the shape of FXa into a novel variant that is more potent, longer-lasting and safer than wild-type (naturally occurring) FXa. Their novel variant is designated FXaI16L.

In the current study, the variant safely restored blood-clotting ability in injured mice that had previously received FXa inhibitors. Infusing the variant either before or during an active bleed significantly reduced bleeding.

"Our next steps will be to test this approach in large animals to help determine whether this variant is effective and safe, and may progress to clinical trials," said Camire. "If so, we may be able to develop an important treatment to rapidly control bleeding in both children and adults."

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The National Institutes of Health (grants HL120487, HL007439, GM007170 and HL74124), the Penn-CHOP Blood Center for Patient Care and Discovery, and Pfizer Inc. supported this research. Camire and colleagues have been collaborating with Pfizer to develop this FXa variant to control bleeding for various indications, such as intracranial hemorrhage.

The first author of this study was Nabil K. Thalji, an MD/PhD student in Camire's lab. Other co-authors were Lacramioara Ivanciu, PhD; Robert Davidson, BS; Phyllis A. Gimotty, PhD; and Sriram Krishnaswamy, PhD.

Editor's note: CHOP receives licensing fees and research funding from Pfizer for work related to FXaI16L and Camire receives royalty payments from CHOP based on those licensing fees.

Nabil K. Thalji et al, "A rapid pro-hemostatic approach to overcome direct oral anticoagulants," Nature Medicine, published online July 25, 2016. http://doi.org/10.1038/nm.4149

About The Children's Hospital of Philadelphia: The Children's Hospital of Philadelphia was founded in 1855 as the nation's first pediatric hospital. Through its long-standing commitment to providing exceptional patient care, training new generations of pediatric healthcare professionals, and pioneering major research initiatives, Children's Hospital has fostered many discoveries that have benefited children worldwide. Its pediatric research program is among the largest in the country. In addition, its unique family-centered care and public service programs have brought the 535-bed hospital recognition as a leading advocate for children and adolescents. For more information, visit http://www.chop.edu

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John Ascenzi
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