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

1. Young Wistar rats were used as an experimental model to determine the effects of protein-energy malnutrition on glucose tolerance and insulin release. 2. Malnourished rats presented some of the features commonly found in human protein-energy malnutrition, such as failure to gain weight, hypoalbuminaemia, fatty infiltration of the liver and intolerance of oral and intravenous glucose loads. 3. The rate of disappearance of glucose from the gut lumen was greater in the malnourished rats but there was no significant difference in portal blood glucose concentration between normal and malnourished rats 5 and 10 min after an oral glucose load. 4. Insulin resistance was not thought to be the cause of the glucose intolerance in the malnourished animals since these rats had a low fasting plasma insulin concentration with a normal fasting blood glucose concentration and no impairment in their hypoglycaemic response to exogenous insulin administration. Furthermore, fasting malnourished rats were unable to correct the insulin-induced hypoglycaemia despite high concentrations of hepatic glycogen. 5. Malnourished rats had lower peak plasma insulin concentrations than normal control animals after provocation with oral and intravenous glucose, intravenous tolbutamide and intravenous glucose plus aminophyllin. This was not due to a reduction in the insulin content of the pancreas or potassium deficiency. Healthy weanling rats, like the older malnourished rats, had a diminished insulin response to intravenous glucose and intravenous tolbutamide. However, their insulin response to stimulation with intravenous glucose plus aminophyllin far exceeded that of the malnourished rats. Thus the impairment of insulin release demonstrated in the malnourished rats cannot be ascribed to a 'functional immaturity' of the pancreas.
 ...
PMID:Glucose tolerance and insulin release in malnourished rats. 81 69

Insulin release was studied in vitro using pieces of pancreas from rabbits of between 24 days gestational age and 6 weeks postnatal age. When allowance was made for the fraction of pancreas which was endocrine, 16-5mM-glucose caused increasing stimulation of insulin release as development advanced and 3-3 mM-glucose caused a similar rate of secretion at all ages. Secretion was not significantly influenced by insulin destruction in the incubation medium. Glucagon (5 mug/ml) did not stimulate insulin secretion from 24-day foetal pancreas but did so postnatally. Theophylline (1 mmol/1) stimulated insulin release at all ages and was equipotent on 24-day foetal pancreas in 3-3 or 16-5 mM-glucose. The stimulation of insulin release from 24-day foetal pancreas by 1 mM-theophylline occurred in the absence of extracellular glucose, pyruvate, fumarate and glutamate and in the presence of mannoheptulose and 2-deoxyglucose (each 3 mg/ml). Adrenaline (1 mumol/1) and diazoxide (250 mug/ml) abolished or attenuated the stimulation of insulin release by glucose, leucine plus arginine or theophylline from 24-day foetal, 1 day and 6 weeks postnatal pancreas. The stimulation of insulin release from 6-week-old pancreas by 1mM-barium was blocked by adrenaline and diazoxide but the effect became less with increasing immaturity. The experimental results illustrate some of the ways in which insulin secretion by the rabbit beta cell changes as a function of development and draw attention to the importance of glucose and cyclic adenosine monophosphate in this process.
 ...
PMID:Development of pathways of insulin secretion in the rabbit. 109 Jun 94

Respiratory distress syndrome (RDS) is primarily caused by an immaturity in the synthesis and secretion of surfactant by the fetal lung type II cell. Fetal hyperinsulinemia associated with maternal diabetes places the newborn at an increased risk of developing RDS, and therefore, it has been hypothesized that insulin inhibits type II cell differentiation. We have previously shown that insulin inhibits the accumulation of surfactant-associated protein A (SP-A), the major surfactant-associated protein, in human fetal lung explants maintained in vitro. In the present study, we used Northern blot analysis to evaluate the effects of insulin on the content of SP-A messenger RNA (mRNA) as well as on the content of mRNA for the hydrophobic surfactant-associated proteins SP-B and SP-C in human fetal lung explants maintained in vitro. Lung explants were maintained in serum-free medium with or without added insulin (0.25-2500 ng/ml) for up to 6 days. We observed that insulin, at concentrations of 25-2500 ng/ml, significantly inhibited the accumulation of SP-A mRNA when compared to controls (P less than 0.01). The inhibitory effect of insulin on SP-A mRNA accumulation was dose dependent with an approximately 75% inhibition observed at 2500 ng/ml. Insulin, at the concentration of 2500 ng/ml, significantly inhibited the accumulation of SP-B mRNA by approximately 30% when compared to control levels (P less than 0.01) but had no effect at lower concentrations. Insulin had no significant effect on SP-C mRNA levels at any concentration tested. Our findings provide evidence that insulin may delay fetal lung development by inhibiting SP-A and SP-B gene expression. A deficiency of these proteins in pulmonary surfactant may account for the increased incidence of RDS in infants of diabetic mothers.
 ...
PMID:Insulin regulation of messenger ribonucleic acid for the surfactant-associated proteins in human fetal lung in vitro. 163 13

In the neonatal period of the rat, pancreatic thyrotropin-releasing hormone content decreases and the sensitivity of insulin secretion to glucose increases. In adult rat islets, TRH inhibits glucose-induced insulin release. The aim of this study was to investigate whether a high TRH content and release can be part of the explanation for the functional immaturity of neonatal islets. For that purpose, we have measured the tissue content and the secretion of immunoreactive insulin, glucagon, somatostatin and TRH in islets from 21.5-day-old rat fetuses cultured for up to one week. Insulin, glucagon and somatostatin content increased during one week of culture in the presence of 11.1 mmol/l glucose. The TRH content decreased during culture, but did not equal adult values. Insulin, glucagon and somatostatin responses to glucose were present after one week of culture. Glucose had no effect on TRH release in cultured fetal islets, but inhibited TRH release in adult islets. We conclude that glucose can stimulate insulin secretion without inhibiting TRH release, but that a decrease in islet TRH content and a sensitization of TRH secretion to glucose may be important in the full maturation of fetal pancreatic islets.
 ...
PMID:Insulin, glucagon, somatostatin, and thyrotropin-releasing hormone content and secretion by perifused fetal rat islets during culture. 197 58

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)
 ...
PMID:Pubescence-related changes in hepatocyte insulin dynamics in female rats. 266 May 89

High plasma concentrations of C-terminal immunoreactive glucagon (IRG) have been found during early life in several mammalian species. We have analyzed the plasma IRG of 12 h to 60 day-old dogs in terms of the 4 peaks (IRG greater than 20,000, IRG9000, IRG3500 and IRG2000) obtained by gel filtration on Bio-Gel P-30. Significant changes with age and in response to administered agents were confined to IRG9000 and IRG3500. IRG9000 was 9-fold higher in 12-36 h old dogs than in adults (108 +/- 24 pg/ml pancreatic glucagon equivalents v. 12 +/- 3 pg/ml, mean +/- SEM) and showed a decline to 2-fold higher (27 +/- 5 pg/ml) at 31-60 days. IRG3500 was higher than in the adult only during the first 36 h of life (36 +/- 5 pg/ml v. 15 +/- 3 pg/ml). Arginine infusion (0.5 g/kg over 15 min) caused an increase in plasma levels of both IRG9000 and IRG3500 in the newborn, whereas in adult dogs only IRG3500 was increased. Insulin injection (0.2 U/kg intravenously) causing a marked hypoglycemia had no significant effect on the plasma level of any IRG component in newborn dogs. Dihydrosomatostatin infusion (10 micrograms/kg bolus +/- 90 micrograms/kg over 30 min) caused a decrease in both IRG9000 and IRG3500. The increased basal level and secretory response to arginine of IRG9000 in newborn dogs may reflect an immaturity of the A cells, whereby more of this component, which may represent a precursor of pancreatic glucagon, is secreted than in the adult. The immature A cells also appear to have an impaired secretory response to hypoglycemia.
 ...
PMID:Plasma glucagon-immunoreactive components in early life in dogs. 286 2

A study on the development of biphasic insulin release and sensitivity to inhibitors has been performed using perifused rat pancreas at 19.5 days of gestation (3 days before birth) and at 3 days after birth. In the fetal pancreas, 16.7 mM glucose caused a marked stimulation of insulin release that did not, however, manifest a biphasic response and was not inhibited by verapamil, a Ca2+ channel blocker. This suggested that the immature response was due to either a lack of voltage-dependent Ca2+ channels or their failure to open in response to glucose. Depolarizing concentrations of KCl stimulated insulin release, which was inhibited by verapamil, demonstrating that functional Ca2+ channels were present. In the presence of 16.7 mM glucose, quinine, which blocks glucose-sensitive k+ channels, potentiated the response of the fetal pancreas that now became sensitive to verapamil, demonstrating that functional K+ channels were also present in the fetal pancreatic beta-cell. The immaturity of the response is not due specifically to a defect in glucose metabolism; rather the metabolism of nutrient secretagogues fails to couple with the K+ channel in the fetal islet and thus fails to depolarize the beta-cell membrane. Three days after birth the pattern of response to high glucose is biphasic. Insulin release in fetal pancreas was inhibited by epinephrine and somatostatin.
 ...
PMID:Development of the biphasic response to glucose in fetal and neonatal rat pancreas. 289 70

Several groups have reported a risk of fetal macrosomia in pregnancies with maternal glucose intolerance which is intermediate between gestational diabetes (GDM) and normal glucose tolerance. The present study was designed to determine whether these pregnancies are also at risk for fetal obesity, hyperinsulinism and placental villous immaturity. 325 women with risk factors for GDM underwent a 75 g OGTT interpreted according to the O'Sullivan criteria. All women who met the criteria for GDM were managed with diet therapy. Insulin therapy was added for women with a mean serum glucose value > 100 mg/dl on a 24 hour glucose profile. Patients not meeting the GDM criteria were managed without special intervention. Primary outcome variables were measures of neonatal weight and skinfold thickness, fetal and neonatal insulin and glucose concentration, and placental villous maturation. Outcome parameters were compared among three groups: pregnancies with normal OGTT (control, n = 95), 1 abnormal value in the OGTT (1 abnl, n = 76) and GDM (n = 154). The outcome of pregnancies with 1 abnormal value in the OGTT was different from those with normal OGTT. Regarding fetal growth, rates of LGA were approximately twice as high in groups with one abnormal value and GDM (21% and 24%) compared to women with normal OGTTs (11%: p < 0.05 vs GDM and p = 0.07 vs 1 abnormal value). The percent of infants with skinfold thickness > 90th percentile was also greater in the 1 abnormal value and GDM groups (31.1 and 31.6% respectively) compared to controls (19.2%; p < 0.05 for GDM vs control only). Regarding fetal hyperinsulinism, AFI concentrations were similar in control and GDM groups (3.1 +/- 0.4 and 3.4 +/- 0.8 microU/ml, respectively), but were higher in the group with one abnormal OGTT value (4.3 +/- 1.2 microU/ml, p < 0.05 vs controls). Cord blood insulin: glucose ratios were elevated in both the 1 abnormal value and GDM groups (0.22 +/- 0.05 and 0.20 +/- 0.02 microU/ml per mg/dl), compared to controls (0.12 +/- 0.01 microU/ml per mg/dl, p < 0.05 vs 1 abnormal value). Neonatal glycemia < 30 mg/dl was significantly more common in the one abnormal value than in the control group (49% vs 34% of infants) and intermediate in the GDM group (40%). Severe placental villous immaturity was more than twice as frequent in the 1 abnormal value group compared to controls (24% vs 9%, p < 0.05) and the most frequent in the GDM group (33%; p < 0.001 vs controls). Pregnancies with glucose intolerance below the thresholds for diagnosis of GDM have an increased risk for fetal obesity, hyperinsulinism, postpartum hypoglycemia and placental immaturity. These findings indicate the continuum of risk for fetal morbidity associated with increasing maternal glucose intolerance in pregnancy.
 ...
PMID:Hyperinsulinism, neonatal obesity and placental immaturity in infants born to women with one abnormal glucose tolerance test value. 959 64

Insulin-dependent neonatal diabetes (ND) mellitus is uncommon with a frequency of 1/500,000 neonates in Europe. ND is characterised by hyperglycaemia, very low or undetectable insulin levels associated with intrauterine growth retardation and malformations. HLA haplotypes of juvenile diabetes or autoimmunity are not present in ND patients. Sporadic and familial forms are observed. ND could be persistent (PND) or transient (TND). Diabetes relapses occur in approximately 40% of TND patients. Hypothesis for ND aetiology such as pancreatic or beta pancreatic islets of Langerhans immaturity or abnormalities of pancreas organogenesis are postulated. Different genetic basis underlie transient or permanent forms though their clinical features do not allow to distinguish them. TND may in about 20-30% of the cases be associated with chromosome 6 paternal uniparental disomy. A candidate locus for an imprinted gene is mapped to 6q24. The permanent forms are less understood. Homozygous mutations of the IPF1/PDX1 (MODY4) and of the Glucokinase (GK, MODY2) genes have been reported. The association of a ND with a macroglossia should be a strong indicator for genetic testing. The genetic findings of a paternal disomy uniparental allows the prediction of a transient rather than a permanent form. Mutation in the Glucokinase gene should be sought in an infant with ND whose first degree relatives have glucose intolerance.
 ...
PMID:[Insulin-dependent neonatal and infant diabetes: genetics and physiopathology]. 1208 68

Obesity is associated with decreased pregnancy rates due, in part, to compromised oocyte quality. The aim of the present cross-sectional study of 84 women undergoing oocyte aspiration was to: (1) compare insulin, lipids and glucose in follicular fluid with serum; (2) determine whether increased body mass index (BMI) and waist circumference, hyperinsulinaemia, dyslipidaemia or metabolic syndrome altered follicular fluid metabolites; and (3) determine relative lipid content in oocytes to reveal any influence of these parameters on oocyte quality and IVF outcomes. Insulin, glucose, triglyceride and free fatty acids were lower in follicular fluid than blood and not strictly correlated between compartments. Insulin, glucose and triglyceride positively correlated with increasing BMI and waist circumference in blood and follicular fluid. Insulin increased in follicular fluid in association with metabolic syndrome. Free fatty acid composition analysis showed saturated fatty acids, particularly palmitic and stearic acid, to be more prevalent in follicular fluid than blood. There were no associations between follicular fluid metabolites or oocyte lipid content and clinical outcomes; however, oocyte immaturity correlated with follicular fluid glucose and fatty acid levels, as well as metabolic syndrome. The present study confirms that the human ovarian follicular environment surrounding the oocyte exhibits a unique metabolite profile compared with blood, with distinct localisation of lipids within follicular fluid and oocytes.
...
PMID:Distinct localisation of lipids in the ovarian follicular environment. 2575 Nov 51


1 2 Next >>