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Study Shows How Stem Cells Win Body's Battle for Survival

by Rajshri on Dec 7 2009 8:38 PM

A new study on fruit flies has revealed how stem cells win the battle for survival.

"Our work exemplifies how one signal coordinately maintains two types of stem cells in a single niche, or microenvironment," said Dr Erika Matunis, associate professor of cell biology at the Johns Hopkins School of Medicine.

"What we found may emerge as common themes of mammalian stem cell niches as they become better characterized," Matunis added.

During the study, researchers looked at fruit fly testes where two different stem cells exist: germline stem cells which give rise to sperm, and somatic stem cells which develop into non-reproductive cell types.

They grew flies lacking the SOCS protein, which controls other molecules that promote stem cell growth.

SOCS normally ensures that the right numbers of stem cells are present in the stem cell niche, a region at the far end of the fly testis where new cells are born.

In a normal testis, the germline stem cells are surrounded by somatic stem cells at a ratio of about one germline stem cell for every two somatic stem cells.

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The researchers isolated testes from flies lacking SOCS and, under a microscope, counted the number of germline stem cells and somatic stem cells. They found that nearly half of the germline stem cells were gone and the somatic stem cells appeared to be occupying that space.

"The somatic stem cells almost look like they've invaded the niche area," says Melanie Issigonis, a graduate student in the Biochemistry, Cellular, and Molecular Biology graduate program at Johns Hopkins.

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To figure out where the lost germline stem cells went and how they lost the battle for space, the team returned to the microscope.

This time, they examined the cells for whether they contained integrin, a protein that helps cells stick to each other.

According to Matunis, the increase in integrin allows somatic stem cells to gain the upper hand because they can stick to the niche better than neighboring germline stem cells can.

Though the somatic stem cells were invading the niche, germline stem cells were not dying. In the microscope images, the team found that all remaining germline stem cells still looked alive and healthy, but elbowed out of their niche by somatic stem cells.

Matunis says no matter how healthy a germline stem cell is, if it cannot stick, it will eventually be outcompeted by the somatic cells and pushed all the way out of the niche.

The study appears in journal Science.

Source-ANI
RAS


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