'Bloodcurdling' mystery solved.Byline: ANI Washington, June 5 (ANI): Harvard University researchers have uncovered a fundamental feedback mechanism that the body uses to regulate clotting of blood. The researchers reach the conclusion by applying cutting-edge techniques in single-molecule manipulation. Scientists say the finding, which could lead to a new physical, quantitative, and predictive model of how the body works to respond to injury, has implications for the treatment of bleeding disorders. A team, co-led by Timothy A. Springer, Latham Family Professor of Pathology at Harvard Medical School Harvard Medical School (HMS) is one of the graduate schools of Harvard University. It is a prestigious American medical school located in the Longwood Medical Area of the Mission Hill neighborhood of Boston, Massachusetts. and Children's Hospital Boston Children's Hospital Boston is a children's hospital located in the Longwood Medical and Academic Area of Boston, Massachusetts. Located at 300 Longwood Avenue, Children's is adjacent both to its teaching affiliate, Harvard Medical School, and to Dana-Farber Cancer Institute. , and Wesley P. Wong, Rowland Junior Fellow and a Principal Investigator at the Rowland Institute at Harvard, reported its discovery about the molecular basis for the feedback loop responsible for hemostasis in the June 5th issue of Science. "The human body has an incredible ability to heal from life's scrapes and bruises. A central aspect of this response to damage is the ability to bring bleeding to end, a process known as hemostasis. Yet regulating hemostasis is a complex balancing act," Wong said. Too much hemostatic hemostatic /he·mo·stat·ic/ (he?mo-stat´ik) 1. causing hemostasis, or an agent that so acts. 2. due to or characterized by stasis of the blood. he·mo·stat·ic adj. activity can lead to an excess of blood clots, resulting in a potentially deadly condition known as thrombosis. If too little hemostatic activity occurs in the body, a person may bleed to death. To achieve the proper balance, the body relies on a largely mechanical feedback system that relies on the miniscule forces applied by the circulation system on a molecular "force sensor" known as the A2 domain of the blood clotting protein von Willebrand factor von Willebrand factor (vWF) A protein found in the blood that is involved in the process of blood clotting. Mentioned in: Von Willebrand Disease von Willebrand factor (VWF vWF von Willebrand's factor. von Willebrand factor (vWF) A protein found in the blood that is involved in the process of blood clotting. Mentioned in: Von Willebrand Disease ). By manipulating single molecules of this A2 domain, the researchers found that the A2 domain acts as a highly sensitive force sensor, responding to very weak tensile forces by unfolding, and losing much of its complex three-dimensional organization. he unfolding event allows the cutting of the molecule by an enzyme known as ADAMTS ADAMTS A Disintegrin-Like and Metalloproteinase with Thrombospondin 13. "In the body, these cutting events decrease hemostatic potential and also enable blood clots to be trimmed in size. The system is so finely tuned that the A2 shear sensor is able to regulate the size of VWF within the blood stream, maintaining the optimal size for responding properly to traumas," Wong said. To make the discovery, the team relied upon an "optical tweezers" system developed in Wong's lab. The tweezers tweezers An instrument with pincers used to grasp or extract. See Optical tweezers. are capable of applying miniscule forces to individual molecules while observing nanoscale changes in their length. Such manipulations enabled the researchers to characterize both the unfolding and refolding rates of single A2 molecules under force, as well as their interaction with the enzyme. The molecular construct was created in Dr. Springer's lab, and consisted of an A2 domain connected to two DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. handles for manipulation. This elegant molecular system allowed the VWF "shear sensor" to be carefully studied and tested in isolation. (ANI) Copyright 2009 Asian News International The Asian News International (ANI) agency provides multimedia news to China and 50 bureaus in India. It covers virtually all of South Asia since its foundation and presently claims, on its official website, to be the leading South Asia-wide news agency. (ANI) - All Rights Reserved. Provided by Syndigate.info an Albawaba.com company |
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