UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The putative effects of diabetes and metabolic control on circulating levels of insulin-like growth factors (IGFs) and their binding proteins (IGFBPs) remain controversial. In the present study, serum levels of IGF-I and IGF-II and IGFBP-1, -2, and -3 were measured in 58 patients (age, 0.8-17 yr) with treated (51 subjects) or untreated (7 subjects) insulin-dependent diabetes mellitus (IDDM) and were compared with the levels in normal subjects. In the untreated patients IGF-I and IGF-II were decreased as compared with the healthy controls. In the treated diabetics IGF-I and IGF-II were reduced; IGFBP-2 (only in prepubertal subjects) and IGFBP-3 were increased. Furthermore, age-adjusted values of IGF-I, IGF-II, and IGFBP-3 were lower in prepubertal than in pubertal patients. Regression analysis revealed a negative correlation between hemoglobin (Hb)A1c and standard deviation scores (SDS) of IGF-I and a positive association between HbA1c and IGFBP-1 SDS or IGFBP-2 SDS. In the treated patients HbA1c was positively related to IGFBP-1 SDS and IGFBP-2 SDS when applying simple regression analysis and to IGFBP-2 SDS when using a multiple regression model. Strong correlations were observed between height SDS and IGF-I SDS, IGF-II SDS, and IGFBP-3 SDS in prepubertal subjects who had had IDDM for at least 2 yr, but not in adolescents. Such correlations have also been found in healthy children and adolescents. In conclusion; 1) IDDM is associated with alterations of the IGF-IGFBP system, which are partially accounted for by differences in metabolic control and pubertal status; 2) the lower plasma concentrations of serum IGF-I may play a role in the pathogenesis of growth impairment of poorly controlled prepubertal, but not pubertal, children and adolescents with IDDM; and 3) in addition, a potential role of the altered IGF-IGFBP system for the development of diabetic late complications is hypothesized.
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PMID:Insulin-like growth factor (IGF)-I and -II and IGF-binding proteins-1, -2, and -3 in children and adolescents with diabetes mellitus: correlation with metabolic control and height attainment. 753 2

To further characterize the mechanism of impaired growth in children with insulin-dependent diabetes mellitus, we examined the serum components of the insulin-like growth factor (IGF) system in 11 children with new-onset insulin-dependent diabetes mellitus and followed the effect of insulinization on the IGF system longitudinally 1 day, 1 week, and 1 month after starting insulin treatment. Before insulin therapy, serum IGF-I, IGF-II, IGF-binding protein-3 (IGFBP-3), and GH-binding protein (GHBP) levels were significantly decreased, whereas IGFBP-1 and cortisol were significantly increased in diabetic children compared to those in an age-, sex-, and stage of puberty-matched control group. Random serum GH concentrations did not differ significantly. The alterations in the IGF system reversed with insulin therapy in a sequential manner. IGFBP-1 fell rapidly and was comparable to control values within 24 h after insulin treatment. IGF-I rose 1 week after treatment, reaching levels comparable to those in controls and continued to rise through 1 month of treatment. IGF-II, IGFBP-3, and GHBP showed a slower pattern of change, with their levels reaching control values only 1 month after the start of insulin treatment. Improvement in glycemic control, as determined by a change in hemoglobin-A1c, correlated positively with improvement in IGF-I, IGF-II, IGFBP-3, GHBP, and weight gain after 1 month of insulin therapy. These data are consistent with the hypothesis that changes in the IGF system in the insulinopenic state are similar to those during nutritional deprivation and may serve to minimize IGF's anabolic actions. The decreases in IGF-I, IGF-II, and IGFBP-3 may in part be due to a decrease in the GHBP/receptor. However, the observation that an increase in serum IGF-I was observed earlier than an increase in GHBP and without a significant change in serum GH suggests a direct stimulatory effect of insulin on liver IGF-I production or reversal by insulin of some postreceptor defect in GH action independent of GHBP.
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PMID:Effect of insulin on the insulin-like growth factor system in children with new-onset insulin-dependent diabetes mellitus. 753 5

The purpose of the present study was to investigate the influence of nutrients and insulin on IGFs and their binding proteins (IGFBPs) during the fetal and neonatal periods of three rat populations: (a) rats undernourished by a 35% reduction in the diet from day 16 of gestation, (b) streptozotocin-induced diabetic rats from the same day, or 4 days after birth, and (c) control rats. Fetuses from the diabetic population showed a decrease in insulinemia at 19 and 21 days, along with an increase in glycemia at all stages. Neither glycemia nor insulinemia changed in the fetuses of undernourished mothers, but body weight was decreased at birth. Serum IGF-II decreased at 18 and 19 days of gestation in fetuses from undernourished mother, and increased at 18, 19 and 21 days in fetuses from diabetic mothers. Serum IGFBPs of low molecular weight (IGFBP-1 and IGFBP-2) increased in the three fetal populations studied, although no changes in serum IGFBPs were found from the effect of undernutrition or diabetes, but fetal liver IGFBP-1 mRNA expression was found to decreased in undernourished and diabetic animals as compared with controls. In neonatal rats, body weight, insulinemia and serum GH decreased in both undernourished and diabetic rats vs controls, while glycemia decreased in the undernourished and increased in the diabetic group. Serum IGF-II decreased only in diabetic rats and serum IGF-I decreased in both groups. The neonatal serum 30 kDa complex (IGFBP-1 and -2) also increased in undernutrition and diabetes parallel to the expression of mRNA. But, taken together, the changes in IGFBP peptide levels and liver mRNA expression strongly suggest that the 30 kDa complex seems to be composed mostly of IGFBP-1 in the diabetic group and of both IGFBP-1 and -2 in the undernourished animals. The studies of liver mRNA expression of IGFs and IGFBPs confirm the different metabolic control mechanism for the availability of IGFs by the IGFBPs, depending on the animal's maturity. The different adaptation shown by the diabetic neonatal population was confirmed by correlation studies between body weight, glycemia, insulinemia, IGF-I and IGFBPs. The different mechanism of adaptation in diabetic vs undernourished rats seems to be probably due to the decisive role played by hyperglycemia in the diabetic population, and also shows the crucial influence of nutritional status on IGFs and IGFBPs.
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PMID:Effects of undernutrition and diabetes on serum and liver mRNA expression of IGFs and their binding proteins during rat development. 754 53

No differences were detected in serum IGF-I levels between lean and obese male SHFF/Mcc-fa(cp) rats expressing non-insulin-dependent diabetes mellitus (NIDDM). In contrast, serum insulin levels, and blood glucose levels were significantly elevated in obese as compared to lean littermates (P < 0.05), indicating that the obese animals were diabetic. Northern blot analysis of total tissue RNA using labeled cDNAs for IGF-I and IGF-II revealed a decrease in liver and adipose IGF-I mRNA expression in the obese littermates while IGF-II mRNA expression was decreased only in adipose tissue of obese animals as compared to lean littermates.
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PMID:Insulin-like growth factor mRNA expression in tissues of lean and obese male SHFF/Mcc-fa(cp) rats. 755 50

It has been recently recognized that a distinct signaling pathway in the hypothalamus is involved in the stimulation of feeding in mammals. Neuropeptide Y (NPY), a member of the pancreatic polypeptide family, is the most potent orexigenic signal, and its secretion in discrete hypothalamic sites increases in response to insulinopenia produced by food deprivation or experimental diabetes. To establish the site of interaction between the hypothalamus and the pancreas, we examined the effects of insulin on NPY release in vivo and in vitro from hypothalamic sites known to be involved in feeding behavior. In the first study we evaluated the effects of peripheral insulin injections (1 U/kg.day, sc) on NPY levels in seven hypothalamic nuclei in food-deprived (FD) and ad libitum-fed rats. Whereas food deprivation for 3 days increased NPY levels in the medial preoptic area, paraventricular nucleus (PVN), and arcuate nucleus, insulin injections, which did not alter blood glucose levels, returned NPY levels to the control range selectively in the PVN. NPY levels in the hypothalamic nuclei remained unchanged after insulin injections in ad libitum-fed rats. The in vivo NPY release in the PVN of FD rats, evaluated by the push-pull cannula technique, also decreased in response to peripheral insulin injections. Finally, the effects of insulin, insulin-like growth factor I (IGF-I), and IGF-II on NPY release in vitro from the microdissected PVN and two central neighboring sites, the ventromedial nucleus and the median eminence-arcuate nucleus, of FD rats were evaluated. Both insulin (0.67 or 6.7 nM) and IGF-II (0.7 or 7.0 nM) decreased the release of NPY in a dose-dependent manner only from the PVN. On the other hand, IGF-I (0.07 or 7.0 nM) failed to alter the basal PVN NPY efflux. As the PVN is richly innervated by NPY-containing nerve terminals, the results of these in vivo and in vitro studies suggest that the site of insulin action on the hypothalamic NPY network may reside at the level of PVN nerve terminals or at the interneurons in contact with NPY nerve terminals. Although insulin may have a direct effect in reducing NPY release from the PVN, the effectiveness of IGF-II in decreasing NPY release from the PVN raises the possibility that insulin's action may also be mediated via hypothalamic IGF-II neuronal pathways.
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PMID:Insulin and insulin-like growth factor II suppress neuropeptide Y release from the nerve terminals in the paraventricular nucleus: a putative hypothalamic site for energy homeostasis. 758 28

A specific radioimmunoassay for human IGFBP-2 was developed using a polyclonal antiserum directed against a partial sequence (hIGFBP-2(176-190)). The tracer was prepared by radioiodination of a [Tyr]o-hIGFBP-2(176-190) derivative. The assay was used to study IGFBP-2 levels in numerous clinical and experimental situations. There was little circadian fluctuations of serum level which showed a marked age-dependence with high levels at birth and senescence and low levels during puberty. Decreased IGFBP-2 levels were present in untreated insulin-dependent diabetes mellitus (IDDM), in acromegaly and during dexamethasone suppression test. GH deficiency, fasting, IGF-I administration to patients with GH receptor deficiency, hepatic failure and insulinomas caused a moderate increase of serum IGFBP-2. Markedly elevated levels were found in chronic renal failure, non-islet cell tumour induced hypoglycemia and leukaemias. The fact that all possible relationships between insulin secretion and IGFBP-2 levels could be identified suggests that insulin is not a major regulator. In general, there was an inverse relationship with serum IGFBP-3 (except IDDM) and IGFBP-2 levels were high in situations where free IGF-II should be expected to be high. The tentative conclusion would therefore be that free IGF-II is a major regulator of circulating IGFBP-2.
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PMID:Clinical studies of IGFBP-2 by radioimmunoassay. 768 12

Neuropathy can be a highly debilitating complication for about 10-15% of diabetic individuals. Unfortunately, the complex syndrome has proven difficult to explain and a consensus as to its cause has not emerged. It has recently come to light that insulin and insulin-like growth factors (IGFs) have neurotrophic actions on sensory, sympathetic and motor neurons. These are the main types of neurons afflicted in this disorder. Moreover, IGF activity is reduced in both clinical and experimental diabetes. The premise that insulin, IGF-I and IGF-II provide redundant neurotrophic support underlies the following new theory for pathogenesis of diabetic neural disturbances: a loss of insulin activity leads to a secondary partial decline in IGF-I activity. Although most of the redundant neurotrophic support is thereby eliminated, IGF-II activity continues to support the nervous system. The final enemy is time and the relentless age- and duration-dependent run-down of IGF activity is suggested to contribute to the age- and duration-dependent neuropathy. Weight loss or anorexia nervosa are independent risk factors that can cause a rapid, painful neuropathy to develop as a result of a rapid loss of IGF activity. A distinguishing feature of this new theory is that hyperglycemia is not considered to be the main culprit. The following critical predictions from the theory were tested in diabetic rats: (i) IGF activity is reduced in diabetic neural tissues; (ii) conduction velocity is impaired in the diabetic spinal cord; (iii) replacement therapy with IGF can prevent neuropathy in diabetic nerves; and (iv) IGFs can prevent diabetic neuropathy, despite hyperglycemia. All of these predictions have been validated. It is hoped that a fresh perspective will stimulate renewed study into the causation of this most unfortunate disorder.
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PMID:Implication of insulin-like growth factors in the pathogenesis of diabetic neuropathy. 771 67

Neuropathy is an enigmatic and debilitating complication of diabetes. A consensus as to the pathogenesis of this disorder has yet to emerge. Recently, it has been found that the insulin-like growth factors (IGFs) regulate peripheral nerve regeneration, and IGF content is reduced in various diabetic tissues. We tested herein the hypothesis that IGF administration can prevent or ameliorate the impairment of sensory nerve regeneration in streptozotocin diabetic rats. Miniosmotic pumps released small local doses of IGF-I from a catheter routed near a site of sciatic nerve crush or larger systemic doses of IGF-I or IGF-II from a distant subcutaneous site. Whether administered locally or systemically, IGFs protected against the impairment of sensory nerve regeneration. Surprisingly, this protection was obtained despite unabated hyperglycemia. Therefore, the neuropathy involving sensory nerve regeneration in diabetes can be ameliorated or prevented by IGF treatment, independently of hyperglycemia.
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PMID:Insulin-like growth factors protect against diabetic neuropathy: effects on sensory nerve regeneration in rats. 771 22

Diabetic neuropathy is a common and disabling complication of diabetes mellitus whose pathogenesis remains unknown. Insulin-like growth factors (IGFs) have been recently implicated in the development and maintenance of the peripheral nervous system, and circulating IGF levels are decreased in experimental and clinical diabetes. Therefore, we tested the hypothesis that IGF gene expression is reduced in peripheral nerves early after the onset of diabetes. Sciatic nerves from nondiabetic and streptozotocin-treated rats were removed 5-7 days after the induction of diabetes. RNA was isolated and analyzed by Northern and slot blots. IGF-I mRNA content was significantly decreased per milligram wet weight nerve (P < 0.025) as well as per poly(A)+ RNA (P < 0.01) in diabetic vs nondiabetic nerves. Likewise, the amount of IGF-II mRNA was significantly decreased per milligram wet weight nerve (P < 0.01) as well as per poly(A)+ RNA (P < 0.005). These effects were selective because histone 3.3 mRNA content, as well as poly(A)+ mRNA content, per milligram nerve were unchanged. Insulin treatment partially prevented this decline in IGF-I and IGF-II mRNA levels. The diminished IGF mRNA content is one of the earliest biochemical abnormalities to be observed in the diabetic nerve, supporting the hypothesis that a reduction in IGF activity in diabetic nerves precedes and contributes to the development of neuropathy.
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PMID:Early reduction in insulin-like growth factor gene expression in diabetic nerve. 782 85

We report the sudden and dramatic reversal of maturity onset diabetes in a 57-year-old woman in association with relapse of IgA myeloma diagnosed 3 years earlier. Prior to the relapse of the myeloma, twice daily insulin had been administered at a dose which had been stable for 3 years. However, the same dose produced hypoglycaemic coma at the time of relapse and, subsequently, blood glucose was controlled by diet alone. There had been no significant change in weight or renal function prior to the hypoglycaemic episode. Investigations showed a suppressed fasting serum insulin level in association with an inappropriately high serum level of IGF-II compared with IGF-I and a 'big' IGF-II concentration at the upper end of the normal range. Pituitary, adrenal and liver disease, as well as the autoimmune insulin syndrome, were excluded. The findings are consistent with the hypothesis that the plasma cell tumour was associated with excessive production of insulin-like peptides with consequent reduction in the blood glucose level.
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PMID:Reversal of diabetes associated with escape of myeloma: evidence for inappropriate IGF-II secretion. 794 48

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