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Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To study the mechanism of imparied insulin secretion from rat fetal islets, the insulin responsiveness of islets from fetuses (day 21.5 of gestation) to a variety of secretagogues was compared with that of adult rat islets. Forskolin (30 microM)-induced insulin release from fetal and adult islets was 2.7-and 2.5-fold higher, respectively, than that from islets treated with 5.6 mM glucose alone. The effects of 12-O-tetradecanoyl phorbol-13-acetate (TPA) (200 nM) were also similar in fetal and adult islets. Thus, the responsiveness to forskolin and TPA showed no significant difference in adult and fetal islets. A synergistic effect of combinations of various insulin secretagogues was observed in adult islets; however, a weak synergistic effect was present with gliclazide plus TPA only in fetal islets. After islets were cultured in RPMI 1640 (containing 11.1 mM glucose), gliclazide-, forskolin-, and TPA-induced insulin release reached the levels obtained in adult islets. However, the synergistic effect of gliclazide and TPA disappeared after culture of the islets. These results suggest that the poor insulin secretion from fetal islets is not due to a defect in the activating system of either cAMP or C-kinase, but to the
immaturity
of the interaction of those messenger systems.
Pancreas
1987
PMID:Rat fetal islets as a useful model for the study of insulin release failure. 332 83
The inability of the human fetal beta cell to secrete insulin in response to glucose has been exhaustively studied. In comparison, little attempt has been made to understand if the kinetics of insulin synthesis are as mature as those of an adult beta cell. Using a purified cell population in which 41% of the cells are beta cells, we generated a dose-response curve to glucose with half-maximal synthesis at 4.6 mM glucose, identical to that seen in adult islets. Unlike adult islets, however, in the absence of glucose, agents that raise cyclicAMP (cAMP) (theophylline and forskolin) generated dose-response curves similar to those obtained for glucose. cAMP levels in these cells were enhanced twofold in response to glucose and fourfold to theophylline. Inhibition of cAMP metabolism with 1 mM MDL 12,330A (RMI) reduced insulin synthesis stimulated by glucose and completely inhibited insulin synthesis stimulated by theophylline. Substances that block glucose transport (100 microM cytochalasin B) and protein synthesis (1 mM cycloheximide) also markedly reduced insulin biosynthesis. These results indicate that the regulation of insulin biosynthesis in the human fetal beta cell is cAMP dependent, although glucose transport is a limiting factor when glucose is used as the stimulus. Thus, the human fetal beta cell is relatively mature in its synthesis of insulin, unlike its
immaturity
in insulin release.
Pancreas
1995 Jul
PMID:Control of insulin biosynthesis in the human fetal beta cell. 766 44
