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How Blood Clotting and Cancer Progression are Linked

by Kathy Jones on Feb 6 2011 8:14 PM

 How  Blood Clotting  and  Cancer  Progression  are Linked
The way in which activated blood coagulation is associated with cancer has been discovered by scientists.
A human body's stress response is to stock pile blood-clotting factors. This means that stressed cells in the human body cope by boosting the production of the key blood-clotting factor thrombin. The new study finds out how cancer cells take advantage of this process.

The research was conducted by scientists at the Molecular Medicine Partnership Unit (MMPU), a collaboration between the European Molecular Biology Laboratory (EMBL) in Heidelberg, Germany, and the University of Heidelberg Medical Centre.

The study opens new possibilities for fighting back against cancer as well as septicaemia, where increased blood clotting is still one of the leading causes of death.

"For the 1st time, we have something in hand that might explain this enigmatic relationship between enhanced pro-coagulatory activities and the outcome of cancer," said Sven Danckwardt, who carried out the research within the MMPU.

The amount of thrombin our cells produce is controlled by two sets of proteins: proteins that slow thrombin production, and proteins that speed it up. Both types of protein act by binding to the cellular machinery that synthesises thrombin, and, under normal conditions, the production-slowing proteins keep thrombin levels low.

But Danckwardt and colleagues discovered that, when our cells come under stress from inflammation, another protein, called p38 MAPK, reacts by adding a chemical tag to those production-slowing proteins. That tag makes it harder for the production-slowing proteins to bind to the thrombin-synthesising machinery, allowing the proteins that speed up production to take over. So inflammation caused by cancer could lead to increased thrombin levels and, as thrombin is a blood-clotting agent, this could explain why cancer patients are more likely to suffer from blood-clots. The scientists believe this new mechanism of gene regulation may apply to other genes, too.

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The study has been published in Molecular Cell.

Source-ANI


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