Physiologic Effects of Insulin :: essays research papers

Stand on a streetcorner and ask pile if they know what insulin is, and many another(prenominal) will reply, "Doesntit become something to do with blood sweeten?" Indeed, that is correct, but such a response is a bit give c aresaying "Mozart? Wasnt he some kind of a musician?" Insulin is a key player in the control of intermediary metabolism. It has profound set upon both dough and lipid metabolism, and significant influences on protein andmineral metabolism. Consequently, derangements in insulin signalling have widespread anddevastating effectuate on many organs and tissues. The Insulin Receptor and Mechanism of ActionLike the sense organs for other protein hormones, the receptor for insulin is embedded in the plasmamembrane. The insulin receptor is composed of two alpha subunits and two all-important(prenominal)subunits linked by disulfide bonds. The alpha chains are entirely extracellular and houseinsulin binding domains, while the linked beta chains pene trate through the plasma membrane. The insulin receptor is a tyrosine kinase. In otherwords, it functions as an enzyme that transfersphosphate groups from ATP to tyrosine residues onintracellular stern proteins. Binding of insulin to thealpha subunits causes the beta subunits to phosphorylatethemselves (autophosphorylation), thus activating thecatalytic bodily function of the receptor. The excited receptorthen phosphorylates a number of intracellular proteins,which in turn alters their activity, thereby generating abiological response. Several intracellular proteins have been identified asphosphorylation substrates for the insulin receptor, the best-studied of which is insulinreceptor substrate 1 or IRS-1. When IRS-1 is activated by phosphorylation, a lot of thingshappen. Among other things, IRS-1 serves as a cause of docking center for recruitment andactivation of other enzymes that ultimately negociate insulins effects. A more detailed look atthese processes is presented in th e class on Insulin Signal Transduction. Insulin and Carbohydrate MetabolismGlucose is liberated from dietary carbohydrate such as starch or sucrose by hydrolysis inside thesmall intestine, and is then absorbed into the blood. Elevated concentrations of glucose inblood charge release of insulin, and insulin acts on cells thoughout the body tostimulate uptake, utilization and storage of glucose. The effects of insulin on glucosemetabolism vary depending on the target tissue. Two important effects are Insulin facilitates entry of glucose into muscle, adipose and several other tissues.The hardly mechanism by which cells can take up glucose is by facilitated dispersion througha family of hexose transporters. In many tissues - muscle being a prime example - themajor transporter used for uptake of glucose (called GLUT4) is do available in theplasma membrane through the action of insulin.