Retinas in newborn mice appear perfectly fine without any help from tiny bits of genetic material called microRNAs except for one thing — the retinas do not work.

In the first-ever study of the effects of the absence of microRNAs in the mammalian eye, an international team of researchers directed by the University of Florida and the Italian National Research Council describes a gradual structural decline in retinas that lack microRNAs — a sharp contrast to the immediate devastation that occurs in limbs, lungs and other tissues that develop without microRNAs. … Continue Reading »

One group of small, non-coding RNA molecules could serve as a marker to improve cancer staging and may also be able to convert some advanced tumors to more treatable stages, report a University of Chicago-based research team in the April 1, 2008, issue of the journal Genes & Development.

Carcinomas are cancers that develop from epithelial tissue, which lines internal and external body surfaces. When normal cells are transformed into cancer cells, this epithelial tissue can take on the characteristics of embryonic tissue, known as mesenchymal tissue, which is comprised of unspecialized cells that will develop, as the embryo matures, into more specialized tissues.

That process also goes in reverse. Epithelial to mesenchymal transition (EMT) occurs, for example, during wound healing. In cancer, however, this process can produce invasive and mobile cells that can pass through membranes and travel to distant sites, where they seed new tumors. … Continue Reading »

A protein known as REST blocks the expression of a microRNA that prevents embryonic stem cells from reproducing themselves and causes them to differentiate into specific cell types, scientists at The University of Texas M. D. Anderson Cancer Center report in the journal Nature. Researchers show RE1-silencing transcription factor (REST) plays a dual role in embryonic stem cells, said senior author Sadhan Majumder, Ph.D., professor in M. D. Anderson’s Department of Cancer Genetics. “It maintains self-renewal, or the cell’s ability to make more and more cells of its own type, and it maintains pluripotency, meaning that the cells have the potential to become any type of cell in the body.”

The paper posted online March 23 in advance of publication grew from M. D. Anderson research on the protein’s role in medulloblastoma – an exceptionally aggressive pediatric brain cancer.

Embryonic stem cells are essentially blank slates. They have the unique ability to develop from identical, unspecialized cells and then differentiate … Continue Reading »