Wednesday, May 8, 2013

New potential target for cancer therapy identified

In continuation of my update on telomerase...




The enzyme telomerase is overexpressed in almost all cancer cells, and previous research efforts have failed to identify good telomerase inhibitors. The study by Dr. Woodring Wright and UT Southwestern colleagues in the April 4 issue of Cell Reports identifies a new approach for inhibiting telomerase, which is an enzyme that drives uncontrolled division and replication of cancer cells.
Alternative splicing allows genetic information to be assembled in different ways and is almost always controlled by DNA sequences that are immediately adjacent to the parts of a gene that code for protein. "In the case of the telomerase gene, we found that these controlling regions are located very far from the protein coding regions and that they contain unusual DNA sequences," said Dr. Wright, professor of cell biology and internal medicine. "Their unusual DNA structure suggests that humans regulate telomerase in a very different fashion that we may be able to exploit to develop inhibitors of the enzyme."
Most of the splice variants that telomerase makes are inactive, but Dr. Wright's team demonstrated that it was possible to shift the splicing to make even less active telomerase, potentially providing a new approach for cancer therapy....


New potential target for cancer therapy identified

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