Researchers at UC, San Francisco identified a molecule that regulates differentiation of embryonic stem cells. In some cases, small molecules of the genetic material RNA have the ability to turn genes on and off rather than carrying out the normal RNA function of coding for proteins. These small RNAs, called micro RNA or miRNA, are … Continue reading Genetic Factors Found to Regulate Embryonic Stem Cell Maturation

Researchers at UC, San Francisco found that proteins involved in the generation of neurons early in development also help neural stem cells produce neurons after birth. Furthermore, the researchers identified a self-repair mechanism in the brain that relies on these neural stem cells. Understanding how endogenous neural stem cells repair and remodel a mature brain … Continue reading Neural Stem Cell Repair Mechanism in the Brain Revealed

Researchers at the University of California, Irvine have reversed Alzheimer’s-like symptoms in a mouse model of the disease with injections of neural stem cells. The mice used in this study mimicked the human disease, showing learning and memory defects and accumulating both beta-amyloid plaques and tau protein tangles within the brain, the two hallmark pathologies … Continue reading Neural stem cells reverse Alzheimer’s symptoms in mice

Researchers at the University of California, San Francisco have pinpointed a protein that is critical for maintaining a stem cell’s full potential to self-renew and to differentiate. Stem cells lacking the protein were impaired in their ability to divide and make identical copies of themselves, called self-renewal. These cells also lost their capacity to differentiate … Continue reading Protein required to maintain full potential of stem cells

Researchers at the University of California, Los Angeles have found genetic differences that distinguish induced pluripotent stem (iPS) cells from embryonic stem cells. These differences diminish over time, but never disappear entirely. iPS cells are created when adult cells, such as those from the skin, are reprogrammed to look and behave like embryonic stem cells. … Continue reading Genetic differences found between adult cell and embryonic-derived stem cells

Researchers at the University of California, Irvine have found that neurons derived from  embryonic stem cells were able to repair some damage in a mouse model of multiple sclerosis. In people with MS, the immune system attacks the insulation – called myelin – that covers and protects neurons of the brain and spinal cord. The … Continue reading Embryonic stem cells repair nerve damage from mutiple sclerosis in mice

Researchers at UC, Santa Barbara, have mapped the role of a genetic signal that puts the breaks on the ability of stem cells to self renew. The finding could eventually shed light on self-renewal that has run amuck as in cancer, and can immediately be put to use in managing the balancing act between self-renewal … Continue reading Genetic Brake Key to Stem Cell Fate

Researchers at the University of California, San Francisco have designed a safer technique for reprogramming adult cells into a state that resembles embryonic stem cells. This method takes advantage of genetic molecules called microRNAs, which regulate the activity of genes. The original 2007 method for creating reprogrammed cells, called induced pluripotent stem (iPS) cells, relied … Continue reading Genetic molecule enables safer method for creating iPS cells

Researchers at the University of California, San Diego and the Salk Institute for Biological Studies have found a protein that protects the brain from the kind of damage that can lead to Parkinson's disease. This protein, called Nurr1, has a long history in Parkinson's disease research. People who carry a mutation in the gene are … Continue reading Protein protects brain from damage, may prevent neurodegenerative diseases