G proteins, GNAO1 mutations and Ohtahara Syndrome

G proteins. Intracellular signaling in neurons can occur through various mechanisms including so-called second messengers. G proteins constitute an important part of the signaling cascade that translates the signal from membrane-bound receptors. On neurons, GABA-B receptors or alpha-2 adrenergic receptors use signal transduction through the so-called G alpha-o proteins, which are particularly abundant in the CNS and encoded by the GNAO1 gene. Now a recent paper in the American Journal of Human Genetics describes de novo mutations in Ohtahara Syndrome and movement disorders. Continue reading

Sturge-Weber syndrome explained – somatic mutations in GNAQ

Phakomatoses. There are a group of disorders that affect both the skin and the central nervous system. These disorders, called neurocutaneous disorders or phakomatoses, may result in epilepsy or intellectual disability, depending on the extent to which the brain is affected. While a genetic basis for some neurocutaneous disorders including Tuberous Sclerosis Complex (TSC) and neurofibromatosis is known, the etiology of other neurocutaneous diseases remains unknown. Now, a recent paper in the New England Journal of Medicine reports on the genetic alterations underlying one of the most common neurocutaneous disorders, Sturge-Weber syndrome. Continue reading