Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0029713 (immaturity)
 4,335 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin binding and receptor-mediated insulin processing were investigated in isolated hepatocytes from sexually maturing female rats and from age-matched animals that had undergone prepubertal ovariectomy or whose sexual dimorphism had been disrupted by neonatal androgen treatment. Equilibrium insulin binding was determined after 18 h of incubation with 125I-TyrA14-monoiodoinsulin at 4 degrees C. Receptor-mediated insulin processing was studied after overnight binding with 100 pM insulin at 4 degrees C and subsequent incubation at 37 degrees C. Insulin binding at tracer concentrations increased 50% from sexual immaturity at 3-4 wk through pubescence at 6-8 wk and was further increased into young adulthood at 10-12 wk. Scatchard analysis indicated that the altered binding was due primarily to an increase in receptor number. Increased binding with sexual maturation resulted in correspondingly higher levels of insulin in each of the four compartments of processing studied (cell surface bound, internalized, degraded, and released). A corresponding increase in receptor-mediated insulin degradation after 10 min at 37 degrees C was observed, as changes in insulin degradation were proportional to the increase in insulin receptor binding. The age-related increase in insulin binding and subsequent increase in degradation were abolished by prepubertal ovariectomy. Furthermore, disrupting sexual dimorphism by perinatal androgen treatment resulted in a reduction of the age-related increase in insulin binding, but the percentage of insulin degraded was significantly greater than that accounted for by the increase in receptor number. As a result, insulin degradation per unit of receptor-bound hormone was increased.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pubescence-related changes in hepatocyte insulin dynamics in female rats. 266 May 89

Restriction of protein calories during stages of immaturity has a major influence on glucose metabolism and increases the risk of type 2 diabetes in adulthood. However, it is known that reduction of food intake alleviates insulin resistance. We previously demonstrated an improved insulin-induced glucose uptake in skeletal muscle of chronically undernourished adult rats. The purpose of this work was to investigate whether this condition is present during suckling, a period characterized by physiological insulin resistance as well as elucidate some of the underlying mechanisms. With this aim, 10-d-old pups from food-restricted dams were studied. We showed that undernourished suckling rats are glucose normotolerants, despite their depressed insulin secretion capacity. The content of the main glucose transporters in muscle, GLUT-4 and GLUT-1, was not affected by undernutrition, but fractionation studies showed an improved insulin-stimulated GLUT-4 translocation. p38MAPK protein, implicated in up-regulation of intrinsic activity of translocated GLUT-4, was increased. These changes suggest an improved insulin-induced glucose uptake associated with undernutrition. Insulin receptor content as well as that of both regulatory and catalytic phosphoinositol 3-kinase subunits was increased by food restriction. Insulin receptor substrate-1-associated phosphoinositol 3-kinase activity after insulin was enhanced in undernourished rats, as was phospho-glycogen synthase kinase-3, in line with insulin hypersensitivity. Surprisingly, protein tyrosine phosphatase-1B association with insulin receptor was also increased by undernutrition. These adaptations to a condition of severely limited nutritional resources might result in changes in the development of key tissues and be detrimental later in life, when a correct amount of nutrients is available, as the thrifty phenotype hypothesis predicts.
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PMID:Maternal food restriction enhances insulin-induced GLUT-4 translocation and insulin signaling pathway in skeletal muscle from suckling rats. 1590 22