While scientists increasingly understand the genetics of cancer, they've never been able to track how single cancerous cells form tumors in the body, or work out how tumors grow back seemingly from nowhere. New research, however, sheds some light on that problem—and suggests that tumors are fueled by cancer stem cells.
The research, which is in fact work from three independent studies, suggests that just a small subset of cells drives tumor growth—and that, as a result, curing cancer once and for all may require those cells to be eliminated.
The work has focussed on tumors of the brain, the gut and the skin, using genetic techniques to track stem cells in animal models. The researchers have found that tumors seem to arise from single stem cells, and that their presence within a tumor is responsible for fueling its growth. For a detailed analysis of the three studies and how their findings fit together, this Nature news article is well worth a read.
While in the past the theory of cancer stem cells has been a controversial one, these three studies provide some overwhelming evidence that support its accuracy. But while the basic idea of stem cells driving cancer might be correct, their modes of operation remain mysterious—and no doubt extremely complex.
Still, despite the fact that this is cutting-edge science and has so far only been evidenced in three tumor types, it's difficult to deny the potential impact the findings could have. The presence of cancer stem cells is probably responsible for the regrowth of tumors form nowhere—so if further studies confirm the existence of cancer stem cells in other types of the disease, it could represent a paradigm shift in treatment.
Instead of focussing on the tumor as a whole—doctors currently view controlling or reducing tumor size as a measure of success—the focus could shift instead to merely targeting the correct types of cancer stem cells. While such techniques remain some way off, it's an incredibly exciting turning point in the future of cancer research. [Nature]
Image by G. Driessens