Method makes it easier to separate useful stem cells from 'problem' ones for therapies

Pluripotent stem cells can turn, or differentiate, into any cell type in the body, such as nerve, muscle or bone, but inevitably some of these stem cells fail to differentiate and end up mixed in with their newly differentiated daughter cells.    Because these remaining pluripotent stem cells can subsequently develop into unintended cell types — bone cells among blood, for instance — or form tumors known as teratomas, identifying and separating them from their differentiated progeny is of utmost importance in keeping stem cell–based therapeutics safe.   Now, UCLA scientists have discovered a new agent that may be useful in strategies to remove these cells. Their research was published online April 15 in the journal Developmental Cell and will appear in an upcoming print edition of the journal.   The study was led by Carla Koehler, a professor of chemistry and biochemistry at UCLA, and Dr. Michael Teitell, a UCLA professor of pathology and pediatrics. Both are members of the Eli and Edythe Broad Center for Regenerative Medicine and Stem Cell Research at UCLA and UCLA's Jonsson Comprehensive Cancer Center.   In work using the single-celled microorganism known as baker's yeast, or Saccharomyces cerevisiae, as a model system, Koehler, Teitell and their colleagues had discovered a molecule called MitoBloCK-6, which inhibits the assembly of cells' mitochondria — the energy-producing "power plants" that drive most cell functions. The ...
Source: UCLA Newsroom: Health Sciences - Category: Universities & Medical Training Source Type: news