Why Do Cancer Cells Easily Give In To The Temptation To Divide?
Answers to these questions have emerged from a study by a multidisciplinary team of Weizmann Institute researchers published recently in Molecular Cell. The scientists found that when a cell first receives a signal from a growth factor, ten groups of genes, about 8,000 in total, become activated. Of these, one group, consisting of about ten genes governed by the tumor suppressor p53, is the most crucial: These genes prevent the cell from dividing. Only if the growth factor continues to affect the cell for eight hours does p53 release its grip on the cell's DNA, allowing it to divide. Like a careful driver who puts the brakes on before proceeding, the activation of p53 at the time the cell receives a growth factor signal serves as a "brake," preventing instant division. In this manner, the healthy cell ensures that it will not divide as a result of accidental, mistaken or otherwise superfluous growth signals, but only if the signal is continuous and necessary. In cancerous cells, this mechanism malfunctions because in most of them, p53 is defective or missing altogether, so that even a fleeting growth signal can cause them to divide, leading to cancerous growth.
This interdisciplinary study has resulted from a collaboration between three research teams at the Weizmann Institute, headed by Prof. Yosef Yarden of the Biological Regulation Department, Prof. Eytan Domany of the Physics of Complex Systems Department and Prof. Moshe Oren of the Molecular Cell Biology Department. The study was coordinated by former graduate student Dr. Yaara Zwang; taking part were Aldema Sas-Chen, Yotam Drier, Dr. Tal Shay, Roi Avraham, Dr. Mattia Lauriola, Efrat Shema and Efrat Lidor-Nili. Also taking part were clinical researchers: Dr. Jasmine Jacob-Hirsch, Dr. Ninette Amariglio and Prof. Gideon Rechavi of the Chaim Sheba Medical Center and Drs. Yiilng Lu and Gordon B. Mills of the M.D. Anderson Cancer Center at the University of Texas.
This research sheds new light on the differences between healthy and cancerous cells. It might help develop new effective approaches to chemotherapy. Cancerous tumors sometimes develop resistance to the therapy, among other reasons because it stresses the body. The stress, in turn, leads to the production of growth factors that cause cells to divide, so that the treatment ultimately defeats itself. A better understanding of how growth factors work can help identify intervals for chemotherapy that will prevent the increased division of cancerous cells.
Prof. Yosef Yarden's research is supported by the M.D. Moross Institute for Cancer Research; the Aharon Katzir-Katchalsky Center; the Kekst Family Institute for Medical Genetics; the Kirk Center for Childhood Cancer and Immunological Disorders; the Women's Health Research Center funded by the Bennett-Pritzker Endowment Fund, the Marvelle Koffler Program for Breast Cancer Research, the Harry and Jeanette Weinberg Women's Health Research Endowment, and the Oprah Winfrey Biomedical Research Fund; the Jean - Jacques Brunschwig Fund for the Molecular Genetics of Cancer; the Laub Fund for Oncogene Research; the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation; the Steven and Beverly Rubenstein Charitable Foundation , Inc.; Julie Charbonneau, Canada; and the estate of Norman Davis. Prof. Yarden is the incumbent of the Harold and Zelda Goldenberg Professorial Chair in Molecular Cell Biology.
Prof. Moshe Oren's research is supported by the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation; the Robert Bosch Foundation; and the estate of Harold Z. Novak. Prof. Oren is the incumbent of the Andre Lwoff Professorial Chair in Molecular Biology.
Prof. Eytan Domany's research is supported by the Kahn Family Research Center for Systems Biology of the Human Cell; the Mario Negri Institute for Pharmacological Research - Weizmann Institute of Science Exchange Program; the Leir Charitable Foundation; and Mordechai Segal, Israel. Prof. Domany is the incumbent of the Henry J. Leir Professorial Chair.
Weizmann Institute of Science
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