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Cancer occurs when the growth and differentiation of cells in a body tissue become uncontrolled and deranged. While no two cancers are genetically identical (even in the same tissue type), there are relatively few ways in which normal cell growth can go wrong. One of these is to make a gene that stimulates cell growth hyperactive; this altered gene is known as an 'oncogene'.
Ras is one such oncogene product that is found on chromosome 11. It is found in normal cells, where it helps to relay signals by acting as a switch. When receptors on the cell surface are stimulated (by a hormone, for example), Ras is switched on and transduces signals that tell the cell to grow. If the cell-surface receptor is not stimulated, Ras is not activated and so the pathway that results in cell growth is not initiated. In about 30% of human cancers, Ras is mutated so that it is permanently switched on, telling the cell to grow regardless of whether receptors on the cell surface are activated or not.
Usually, a single oncogene is not enough to turn a normal cell into a cancer cell, and many mutations in a number of different genes may be required to make a cell cancerous. To help unravel the intricate network of events that lead to cancer, mice are being used to model the human disease, which will further our understanding and help to identify possible targets for new drugs and therapies.
