Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The structure of IGF-I is similar to that of insulin, having 43% sequence homology with human proinsulin. Both peptides can induce metabolic and mitogenic effects through their own specific receptors, which also share many structural and functional similarities. Primarily involved in the regulation of growth, IGF-I may have a role in the control of glucose homeostasis, facilitated by changes in its binding proteins. RhIGF-I can reduce hyperglycaemia in patients with severe insulin resistance by direct effects mediated via the IGF-I receptor. Improvements in insulin sensitivity, and reductions in blood glucose levels and HbA1c values have also been seen in subjects with NIDDM. Enhanced insulin sensitivity with low dose rhIGF-I has been observed in adolescents and young adults with IDDM. These effects are closely related to reductions in growth hormone levels, but there is also evidence of complex interactions with insulin at the post receptor level and with IGFBP-1. In recent randomised, double-blind, placebo controlled trials, rhIGF-I given as an adjunct to insulin therapy reduced to HbA1c values. Although the ideal dosage to obtain therapeutic efficacy without complications has yet to be determined, rhIGF-I may have an important role in the treatment of hyperglycaemia and insulin resistance in diabetes.
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PMID:Does recombinant human insulin-like growth factor-1 have a role in the treatment of diabetes? 930 Feb 21

It is not clear how circadian lipolysis and circulating concentrations of non-esterified fatty acids (NEFA) are altered in intensively treated insulin-dependent diabetic (IDDM) patients. Ten IDDM patients on an intensive insulin regimen and eight healthy control subjects were investigated under ordinary living conditions for 27 h by microdialysis of subcutaneous adipose tissue. The true tissue glycerol concentration and adipose blood flow changes were monitored as an index of lipolysis. A circadian pattern in adipose tissue lipolysis was observed in both groups, decreasing during the day and increasing during evening-night. The daytime decrease was normal, but the evening-night rise was elevated in IDDM (p = 0.03). Circulating NEFA decreased during the day and increased at night. The latter increase was enhanced threefold in IDDM (p = 0.003) and correlated with fasting glucose levels (r = 0.77). Nocturnal growth hormone (GH) was increased fivefold in IDDM and correlated to nocturnal lipolysis (r = 0.83). Adipose tissue blood flow increased during the night in a similar fashion in both groups. Near-normalization of glucose for 24 h in IDDM did not affect the nocturnal increases in NEFA, GH and lipolysis. In conclusion, a circadian rhythm in lipolysis was found. Increased lipolytic rates during evening-night may at least in part raise nocturnal circulating NEFA. Nocturnal NEFA and lipolysis are further enhanced in IDDM, maybe due to elevated GH, but not to insulinopenia or hyperglycaemia.
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PMID:A circadian rhythm in lipid mobilization which is altered in IDDM. 930 Feb 44

To investigate the influence of cholinergic pathways on somatostatin (SS) tone in type I diabetes mellitus, we studied the effect of the muscarinic receptor antagonist pirenzepine ([PZP] 100 mg orally) on spontaneous nocturnal growth hormone (GH) and thyrotropin (TSH) secretion and on their response to GH-releasing hormone (GHRH) in the morning in a group of nine insulin-dependent diabetic patients with poor diabetic control. When the nocturnal period was divided into two phases (11:00 PM to 2:30 AM and 3:00 AM to 6:00 AM), both GH and TSH mean concentrations during the first phase were higher than those seen in the second half of the night following placebo administration (GH, 13.4 +/- 1.1 v 4.15 +/- 0.9 ng/mL, P < .001; TSH, 1.9 +/- 0.21 v 1.57 +/- 0.1 microU/mL, P < .05). Pretreatment with PZP induced a significant reduction of GH secretion (3.17 +/- 1.1 v 13.4 +/- 1.1 ng/mL, P < .001) and TSH secretion (1.61 +/- 0.21 microU/mL, P < .05) in the first phase of the night, accounting for a 64% and 11% reduction in the GH and TSH nocturnal peak, respectively. PZP reduced the GH response to GHRH in the morning (17.9 +/- 2.7 v 36.7 +/- 6.3 ng/mL, P < .05), but did not induce any change in TSH values at that time. A positive relationship (r = .73, P < .01) was observed between the percent reduction of the GH response to GHRH and that of the nocturnal GH peak following PZP administration. PZP caused a significant reduction in glucose levels during the second phase of the night (6.4 +/- 0.92 v 9.81 +/- 0.85 mmol/L, P < .05). These results demonstrate that administration of PZP reduces GH and TSH secretion, providing further support for the involvement of SS in the inhibition of GH secretion induced by cholinergic antagonists in type I diabetics. The inhibitory effect of PZP on GHRH-induced GH secretion may help to predict nocturnal GH behavior following administration of the drug.
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PMID:Effects of cholinergic blockade on nocturnal thyrotropin and growth hormone (GH) secretion in type I diabetes mellitus: further evidence supporting somatostatin's involvement in GH suppression. 936 90

To investigate whether recombinant human insulin-like growth factor-I (rhIGF-I) has direct effects on the insulin requirement to maintain euglycemia independent of the growth hormone (GH) level, nine subjects with insulin-dependent diabetes mellitus ([IDDM] seven females; median (range) age, duration of diabetes, and hemoglobin A1C [HbA1C], 16.9 (12.5 to 21.9) years, 11.8 (4.6 to 16.8) years, and 9.8% (7.9% to 14.1%), respectively) underwent two euglycemic studies (6:00 PM to 8:00 AM) after double-blind subcutaneous administration of rhIGF-I/placebo (40 microg/kg). Octreotide infusion (300 ng/kg/h) suppressed endogenous GH, and three identical discrete GH pulses were infused on both nights. Variable-rate insulin infusion maintained euglycemia. Samples were taken every 15 minutes (glucose and GH), 30 minutes (insulin and intermediate metabolites), and 60 minutes (IGF-I and nonesterified fatty acids [NEFA]). Variables were analyzed during the steady-state period of euglycemia (4:00 to 8:00 AM). Data are expressed as the mean +/- SEM. The insulin infusion rate and free-insulin level were both significantly reduced after rhIGF-I administration (0.13 +/- 0.03 v placebo 0.23 +/- 0.05 mU/kg/min, P = .04, and 8.4 +/- 1.3 v placebo 12.1 +/- 1.4 mU/L, P = .03, respectively). GH pulse-related changes in the insulin requirement observed after placebo were not present after rhIGF-I. Glucagon levels were equally suppressed on both nights. Insulin clearance was not altered after rhIGF-I administration. NEFA and ketone levels also were not different on the 2 nights. In conclusion, in adolescents and young adults with diabetes, rhIGF-I administration directly affected insulin requirements independent of GH levels, but had no effect on fatty acid or ketone levels. This difference is related to the abolition of changes in the insulin requirement after GH pulses, and would suggest a complex interaction between GH and IGF-I on insulin action.
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PMID:Recombinant human insulin-like growth factor-I abolishes changes in insulin requirements consequent upon growth hormone pulsatility in young adults with type I diabetes mellitus. 944 Apr 74

We report on a 33-year-old male patient with generalized acquired lipodystrophy, insulin resistant diabetes mellitus and acanthosis nigricans (Lawrence Syndrome). First probable symptoms of lipodystrophy (weight loss, shrinkage of subcutaneous fatty tissue, and loss of muscular strength) became evident three years ago, with the onset of diabetes mellitus occurring about six months later. The patient suffered from the following clinical symptoms: IDDM with increasing insulin-requirement, extreme reduction of fatty tissue, fatty liver hepatitis with elevated liver enzymes, glomerulopathy, muscular and neuropathic pains, as well as hypertriglyceridaemia. A basal C-peptide concentration is rather high. Definitely, the endogenous insulin secretion is increased. In other words, insulin resistance is documented. In an effort to identify the pathogenetic mechanisms of lipoatrophic diabetes mellitus in this patient and to develop a therapeutic strategy, antibodies against different tissues and endocrinologic regulation were investigated. It was possible to demonstrate the presence of serum autoantibodies against lipocytes of the subcutis and other tissues, against hepatic stellate cells, together with autoantibodies against different endocrine organs. By studying the basis of diabetic abnormalities relating to the growth hormone (GH), the insulin-like growth factor (IGF) dynamics in this patient, i.e. reductions of GH, IGF-I, IGF-II, IGF-Binding protein (IGF-BP) 2 and IGF-BP 3, were detected. An immunosuppressive treatment strategy was not beneficial.
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PMID:Dysregulation of insulin-like growth factors in a case of generalized acquired lipoatrophic diabetes mellitus (Lawrence Syndrome) connected with autoantibodies against adipocyte membranes. 951 65

We report the case of a 36-year-old female patient with insulin dependent diabetes who developed hypothyroidism of pituitary origin after giving birth. She had low levels of free T4 and TSH with no response to i.v. TRH. Antimicrosome antibodies were increased (1/25000), suggesting Hashimoto's thyroiditis. The other hormones were normal except for a low level of growth hormone and insulin growth factor 1. There were no antibodies against the pituitary. MRI of the pituitary was normal. We suspect a vascular origin for this partial pituitary deficiency.
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PMID:[Combined deficiency of thyroid stimulating hormone and growth hormone in a diabetic patient with Hashimoto thyroiditis]. 961 34

Islet cell surface antibodies (ICSA) have been demonstrated significantly more often in serum of patients with IDDM and their relatives than in healthy controls, but some investigators have been unable to show binding to human islets. It has therefore been suggested that ICSA is an artefact. We have localised and quantified ICSA binding to different specimens, including human pancreas. ICSA-positive and ICSA-negative patients' serum, determined by a RIA-method, were incubated with ultrathin sections of rat insulinoma (RIN5AH) cells, stained with Goat-anti-human IgG conjugated with 10 nm gold particles. Sections were viewed in transmission electron microscopy (Mag. 30,000 x) and image analyses was used to calculate immunolabelling. To test cell specificity we used (RIN5AH-cells, rat tumour cells producing growth hormone (GH3), normal human pancreas, human insulinoma, and mice liver). Sections showed good morphology. ICSA-positive sera, with or without islet cell antibodies (ICA) gave always higher immunocolloidal labelling then ICSA-negative sera on RIN5AH sections. Thus, the colloidal gold technique could confirm the ICSA results determined with RIA. Immunolabelling was pronounced on normal human pancreas and human insulinoma cells, but none was found on GH3-cells or mice liver cells. ICSA is not an artefact but do exist and bind to human islet cells and therefore maybe can be used as a marker for IDDM immunity.
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PMID:Islet cell surface antibodies (ICSA) do bind to human pancreas: computerised, quantitative determination of ICSA using both pre- and postembedding immunocolloidal techniques. 964 49

The catabolic state of poorly controlled type 1 diabetes has largely been attributed to insulin deficiency. However, the role of hyperglucagonemia, which occurs concomitantly with insulin deficiency, has not been fully investigated. We studied the effects of hyperglucagonemia during insulin deprivation on energy expenditure (using indirect calorimetry) and protein metabolism (using L-[1-(13)C,15N]leucine and L-[1-(13)C]leucine as tracers) in 12 type 1 diabetic subjects. Five protocols were used: insulin treatment, insulin deprivation, insulin deprivation with suppression of endogenous glucagon with somatostatin (SRIH) and growth hormone replacement, insulin deprivation with endogenous glucagon suppression with SRIH (no growth hormone replacement), and insulin deprivation with SRIH and a high level of glucagon replacement (no growth hormone replacement). It was observed that leucine oxidation and the resting metabolic rate (RMR) were significantly lower during insulin treatment and insulin deprivation with concomitant SRIH infusion (lowering glucagon) than during insulin deprivation alone. Replacement of glucagon at a high level during SRIH infusion in the insulin-deprived state increased leucine oxidation and the RMR. Hyperglucagonemia was also associated with a trend for decreased protein synthesis. Hyperglucagonemia did not affect leucine transamination. Insulin replacement decreased leucine flux and oxidation. Leucine oxidation (R2 = 0.79) and the RMR (R2 = 0.81) were seen, by multiple regression analysis, to correlate with glucagon levels and not with other hormones. We conclude that while insulin deficiency increases protein breakdown, hyperglucagonemia is primarily responsible for the increased leucine oxidation and RMR seen during insulin deprivation.
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PMID:Role of hyperglucagonemia in catabolism associated with type 1 diabetes: effects on leucine metabolism and the resting metabolic rate. 979 44

Hypoglycaemia is a frequent acute complication of IDDM and is usually defined as a blood glucose level below 3.0 mmol/l. Hypoglycaemia stimulates several neuroendocrine responses, such as secretion of glucagon, adrenaline, growth hormone and cortisol, which are generally increased during this phenomenon. The true prevalence of hypoglycaemia is not known. Studies of the epidemiology of severe hypoglycaemia give prevalences ranging from 2.7 to 85.7 episodes per 100 patients per year. The major risk factor for severe hypoglycaemia is hypoglycaemia unawareness, which occurs particularly in patients with type 1 diabetes of long duration and in those with a history of frequent episodes of hypoglycaemia. The first step in the management of hypoglycaemia is to check blood glucose and to treat hypoglycaemia on the basis of symptoms. Hypoglycaemia requires urgent treatment with a fast-acting carbohydrate or, if severe, with parenteral glucagon or intravenous glucose. Prevention measures should be instituted to prevent subsequent episodes, particularly in younger children with hypoglycaemic seizures or when seizures are recurrent.
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PMID:Hypoglycaemia in children with type 1 diabetes mellitus. 1019 51

The growth hormone (GH)-insulin-like growth factor (IGF) axis and insulin are major anabolic effectors in promoting weight gain and linear growth. These two anabolic systems are interlinked at many levels, thus abnormalities in one of these systems effect the other causing disordered metabolic homeostasis. Insufficient portal insulinization in insulin dependent diabetes mellitus (IDDM) results in hepatic GH resistance and increased production of IGF-binding proteins-1 (IGFBP-1) and IGFBP-2. GH resistance is reflected by decreased hepatic IGF-I production. In addition, changes in other GH-dependent proteins are also observed in IDDM. Increased proteolysis of IGFBP-3 results in reduction of intact IGFBP-3. Serum ALS levels are also slightly diminished in untreated diabetic patients. Hepatic resistance to GH is, at least in part, caused by diminished GH receptors as reflected by diminished circulating GHBP levels. In addition, there is also evidence from experimental and human studies suggesting post-receptor defect(s) in GH action. As a result of these changes, circulating total and free IGF-I levels are decreased during insulinopenia. Lack of negative feed-back effect of IGF-I on GH secretion causes GH hypersecretion which increases hyperglycemia by decreasing sensitivity to insulin. GH hypersecretion in poorly controlled diabetic patients may play a role in the pathogenesis of diabetic vascular complications. Most of these abnormalities in the GH-IGF axis in diabetes are reversed by effective insulinization of the patient. Addition of IGF-I treatment to insulin in adolescents with IDDM allows correction of GH hypersecretion, improves insulin sensitivity and glycemic control, and decreases insulin requirements. The effect of IGF-I treatment on diabetic complications has yet to be seen.
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PMID:Alterations in the growth hormone-insulin-like growth factor axis in insulin dependent diabetes mellitus. 1022 99


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