A recently discovered form of the protein that triggers blood clotting may play a key role in the molecular mechanisms leading to the growth of certain metastatic cancers, according to new research reported by an international team of scientists. The protein, called "Tissue Factor," is present in various tissues, but is most prominent in vascular structures such as blood vessels. Previous studies have shown that alternatively spliced Tissue Factor (asTF) contributes to cancer growth, but the molecular events leading to this were previously unknown. In a preclinical study, an international team of collaborators including Vladimir Bogdanov, PhD, of the University of Cincinnati (UC), and Henri Versteeg, PhD, of the Einthoven Laboratory of Experimental Vascular Medicine at Leiden University Medical Center in the Netherlands, has described in detail how asTF works to contribute to cancerous cell growth. They report their findings in an early edition of Proceedings of National Academy of Sciences (PNAS). This is the first study to report the specific mechanisms of action that lead to increased angiogenesis when alternatively spliced Tissue Factor is present. "This is an important breakthrough in cancer research because we are able to draw a more complete molecular picture of how Tissue Factor contributes to cancer growth," says Bogdanov, who discovered asTF while a postdoctoral fellow and is currently the director of the newly established hemostasis research program at the UC College of Medicine. "This will help translate basic research into real-life for therapies targeted to stop angiogenesis." Angiogenesis is the process by which tumors grow vessels to fuel their growth and ability to reach out and metastasize to other tissues.
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