This model shows that cancer stem cells, left, can divide into new cancer stem cells, or produce the "normal" cancer cells that form the bulk of the tumor. The "normal" cancer cells, right, duplicate only a certain number of times before they stop (go senescent), after which they slowly die off. Treatments that kill or stop the normal cancer cells may seem promising, but the fundamental danger comes from the cancer stem cells, which can divide forever.

Since cancer cells grow indefinitely, it is commonly believed that senescence (when cells can no longer duplicate) could act as a barrier against tumor growth and potentially be used as a way to treat cancer. A new study, however, shows that cell senescence occurs spontaneously in malignant skin cancer (melanoma) cells but does not stop their growth, which is sustained by a small population of cancer stem cells.

The results, published Jan. 19 in the open-access journal PLoS Computational Biology, explain why it is difficult to treat cancer cells by inducing senescence alone. The work is a collaboration among James P. Sethna, professor of physics at Cornell; first author Caterina A.M. La Porta, a cancer biologist at the University of Milano, Italy; and Stefano Zapperi, a physicist from the National Research Council of Italy.

The work explores the relationship between melanoma and senescence, the normal process where cells decline and eventually stop reduplicating after reaching maturity. The investigators followed the long-term evolution of melanoma cell populations, monitoring the number of senescent cells. After three months, growth slowed and most of the cells turned senescent; however growth did not stop and eventually resumed its initial rate until the senescent cells had almost disappeared.

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The authors mathematically modeled the experimental data using the cancer stem cell hypothesis, where a subgroup of cancer cells divides indefinitely, and is thus unaffected by senescence. These cancer stem cells give rise to a larger population of cancer cells that can duplicate only a finite number of times. The model yielded an indirect confirmation of the presence of cancer stem cells in melanoma, an issue that is still controversial in the cancer research community.

Although a large fraction of cancer cells are susceptible to senescence, the researchers conclude that inducing senescence is unlikely to provide a successful therapeutic strategy because these cells are irrelevant for tumor growth. However, the indirect evidence of cancer stem cells in melanoma may enable the development of new methods to treat specific kinds of cancer. The challenge will be in the strong resistance to drug-induced senescence that would be found in the stem cells. Along this line of research, treatment of tumors would focus on targeting only these cancer stem cells, rather than every single cancerous cell.

Sethna’s work on

Cells’ inability to duplicate does not stop tumor growth

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