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)

In vivo glucose uptake (Rd) occurs via two mechanisms: insulin-mediated glucose uptake (IMGU), which occurs in insulin-sensitive tissues, and non-insulin-mediated glucose uptake (NIMGU), which occurs in both insulin-sensitive and non-insulin-sensitive tissues. To determine whether these two pathways for in vivo glucose disposal are regulated independently, we studied the effect of stress levels of cortisol on IMGU and NIMGU in seven normal subjects after an overnight fast. To study NIMGU, somatostatin (SRIF, 600 micrograms/h) was infused to suppress endogenous insulin secretion and create severe insulinopenia, and glucose turnover was measured isotopically while serum glucose was clamped at approximately 200 mg/dl for 240 min. Separate studies were performed during the overnight infusion of saline or hydrocortisone (HCT; 2.0 micrograms.kg-1.min-1). The final 120 min of each study were used for data analysis. Under these conditions, insulin action is absent, and Rd = NIMGU. NIMGU was 204 +/- 11 mg/min and 208 +/- 8 mg/dl during saline and HCT, respectively (P NS). Therefore, HCT did not modulate NIMGU. To measure the effect of cortisol on Rd, hyperglycemic (200 mg/dl)-hyperinsulinemic clamp studies (30 mU.m-2. min-1) were performed during the infusion of saline or HCT. The results demonstrate that during saline infusion, steady-state rates of Rd (10.4 +/- 0.8 mg.kg-1.min-1) were achieved by 160 min; in contrast, during HCT infusion, Rd never reached steady state but increased from 4.5 +/- 0.2 in the 2nd h to 7.6 +/- 0.4 mg.kg-1.min-1 in the 4th h, P less than .01.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1987 Nov
PMID:In vivo regulation of non-insulin-mediated and insulin-mediated glucose uptake by cortisol. 288 41

Because of its wide distribution in the organism, natural somatostatin (SRIF) demonstrates an ample spectrum of actions, involving mainly the central neuroendocrine system and the enteropancreatic area. In the former, this peptide may find its field of application in conditions characterized by excessive GH, TSH or ACTH secretion, depending on the central or peripheral cause of the inappropriate hormone control. The inhibitory effect of SRIF on gastrointestinal and pancreatic hormones may be useful in the management of tumors originating in this system and also in the treatment of inflammatory processes such as pancreatitis, in malignant diarrhea, and in gastrointestinal bleeding. A complex action of SRIF and its derivative on insulin release and glucose homeostasis may offer some advantages in the control of unstable diabetes. Dampening of organic functions in the upper digestive tract may also render SRIF and its analogues useful in the exploration of the gallbladder, gastric and pancreatic functions. The effect of such peptides on tissue growth and on the regulation of blood pressure are the subject of present investigations. Cytoprotection, an interesting aspect of SRIF application, is discussed elsewhere in this compendium. Finally, some comments on the possible use of SRIF as an additive to the conventional treatment of burns and sepsis close this review.
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PMID:Clinical applications of somatostatin. 290 Feb 4

The infusion of natural somatostatin (SRIF) has been able to partially correct postprandial hyperglycemic reactions in insulin-dependent diabetes mellitus (IDDM). SMS 201-995 (Sandostatin) is a long-acting derivative with a growth hormone-suppressive effect 10-60 times more potent than the native peptide. The effect of SMS 201-995 (50 micrograms s.c.) on glucose control by exogenous insulin has been documented in a series of type I diabetics after stabilization of blood sugar by an artificial pancreas. Inhibition of counterregulatory mechanisms significantly diminished the postprandial hyperglycemia, and insulin requirements, both total and 2 h after meals, were markedly decreased. Also the effect of a single s.c. injection of 100 micrograms SMS 201-995 on the dawn phenomenon in a patient with poorly adjustable diabetes was investigated. The glucose escape observed during the control night was blocked by SMS 201-995. Thus, the stabilizing action of this peptide on postprandial and nocturnal hyperglycemia in unstable diabetes warrants further studies.
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PMID:Effect of a long-acting somatostatin derivative SMS 201-995 (sandostatin) on glucose homeostasis in type I diabetes mellitus. 290 Feb 5

The effects of the diabetic state on the somatotroph's responsiveness to the secretagogues GRF and (Bu)2-cAMP and to the inhibitor somatostatin (SRIF) were evaluated in enzymatically dissociated rat adenohypophyseal cells in primary monolayer culture. Primary cultures were prepared from pituitary tissue of spontaneously diabetic BB/W rats 23-51 days after the onset of hyperglycemia and glycosuria and of age-matched diabetes-resistant control rats. Dose-related stimulation of GH release by GRF and (Bu)2cAMP did not differ significantly in the two preparations. There was no evidence of abnormal sensitivity to TRH in cultured somatotrophs of diabetic rats. Dose-related suppression of (Bu)2cAMP (0.5 mM)-stimulated GH release by 0.01-10 nM SRIF, on the other hand, was significantly affected by diabetes, as indicated by a parallel shift of the dose-response curve to the right and an increase in the IC50 value from 76 +/- 2 to 204 +/- 5 pM (mean +/- SEM; n = 3; P less than 0.001). Maximal suppression by 10 nM SRIF was identical in the two preparations. The degree to which the cultured cells' responsiveness to SRIF was reduced was unrelated to the duration and severity of the diabetic state. Hypothalamic SRIF content did not differ significantly between diabetic and diabetes-resistant rats (186 +/- 12 vs. 178 +/- 10 ng/mg protein). Nevertheless, the SRIF concentration may be elevated in hypophysealportal blood of diabetic rats; we, therefore, examined the effect of prolonged exposure of the cell cultures to SRIF or SMS 201-995 on the subsequent suppression of (Bu)2cAMP-stimulated GH release by SRIF. Addition of either SRIF (10 nM) or SMS 201-995 (5.5 nM) to the culture medium for 4 days significantly increased the IC50 values for SRIF to values similar to those obtained in cultured cells of diabetic rats. We conclude that the somatotrophs of diabetic rats are relatively resistant to SRIF. Since prolonged exposure to SRIF in vitro produced similar resistance, the desensitization in diabetic rats may be due to elevated concentrations of SRIF in hypophyseal-portal blood. This impaired responsiveness to SRIF may contribute to aberrant GH secretion in diabetes.
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PMID:Impaired suppression of growth hormone release by somatostatin in cultured adenohypophyseal cells of spontaneously diabetic BB/W rats. 290 49

An insulin-producing cell line, Clone-16, of hamster origin, was characterized for islet hormone production and for reactivity with islet cell surface (ICSA) and islet cell cytoplasmic (ICA) antibodies in sera from children with newly diagnosed insulin-dependent (Type 1) diabetes mellitus (IDDM). The Clone-16 cells have a doubling time of about 50-60 hr. The cells produced 63 +/- 3 ng (mean +/- SD) immunoreactive insulin and 9.4 +/- 0.3 ng immunoreactive glucagon per day per 10(6) cells, while somatostatin (SRIF) and pancreatic polypeptide (PP) were undetectable. The reactivity with autoantibodies in IDDM sera was assessed by indirect immunofluorescence or 125I-protein A binding assay on intact cells to detect islet cell surface antibodies (ICSA) or on frozen sections of cell pellets to detect islet cell cytoplasmic antibodies (ICCA) by indirect immunofluorescence. Although the proportion of the ICSA-positive Clone-16 cells compared favorably with rat islet cells (r = 0.81; p less than 0.01), we found 5/10 IDDM sera to be positive on rat islet cells but 8/10 on the Clone-16 cells. There was also a good correlation in the 125I-protein A binding assay between mouse islet cells and Clone-16 cells (r = 0.91; p less than 0.01). Frozen sections of Clone-16 cells showed a cytoplasmic immunofluorescence in 8/10 of the IDDM sera and this reaction parallelled the results obtained in the standard indirect immunofluorescence assay with a frozen section of human blood group O pancreas. We conclude that the insulin- and glucagon-producing Clone-16 cells are a useful cell line for detecting islet cell autoantibodies.
Diabetes Res 1987 Mar
PMID:Detection of islet cell autoantibodies in newly diagnosed diabetic patients using insulin-producing Syrian hamster cells. 330 Nov 57

Salbutamol-induced diabetic ketoacidosis having recently been reported, the authors have studied the metabolic changes produced by the drug in 6 nondiabetic patients. All patients received a 3-hour infusion of salbutamol (S) 20 z g/minm. On the following day, three of these were given somatostatin (SRIF) 100 mg/hour mixed with S infused at the same rate, whilst the remaining 3 patients received SRIF alone. On the 3rd day, patients of the first sub-group received the same infection of S and SRIF as before plus exogenous glucagon 90 ng/kg/hour. Somatostatin is know to inhibit insulin and glucagon secretion. Exogenous glucagon was given in order to reproduce the metabolic conditions of insulin-deficient diabetes mellitus. Salbutamol alone induced a small rise in blood glucose and insulin, free fatty acids, glycerol and ketonic bodies, but no changes in endogenous glucagon. SRIF alone produced no significant metabolic variations. In the presence of SRIF, all salbutamol-induced metabolic changes were increased. Adding glucagon mainly resulted in high levels of ketonic bodies. All variations correlated with each other. Thus, whilst the hyperglycaemic, lipolytic and ketogenic effects of S in non-diabetic patients are partly masked by insulin hypersecretion, they are enhanced in the absence of insulin and, to an even greater extent, by an excess of glucagon. Diabetic patients treated with salbutamol should therefore be under close surveillance and have their insulin dosage increased.
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PMID:[Metabolic risks of salbutamol in diabetic patients. A study using somatostatin (author's transl)]. 610 23

Islets of 5-mo-old obese Zucker rats secreted 50% more somatostatin (SRIF) in response to 8.3 mM or 16.7 mM glucose than did islets from lean controls; the islet SRIF contents of obese and lean rats were similar. As expected, islets of obese rats demonstrated a greater basal and a fivefold greater glucose-induced insulin release and also a twofold greater insulin content than did islets from lean rats. Obese rats were pair fed with lean animals from the age of 9 wk until killed, when 5 mo old. While this curtailed the weight gain of obese rats to that of lean controls, it caused no reduction in the percent body weight found in the form of lipid. The responses of the pancreatic delta and beta cells to pair feeding were markedly different. Pair feeding caused no alteration in either SRIF content or glucose-induced SRIF release, while the expected reductions in both islet insulin content and glucose-induced insulin secretion were observed. Islets from older obese Zucker rats (15--18 mo old) had four to five times greater contents of both SRIF and insulin than did islets from age-matched lean controls. The obese rats of this age had a moderate glucose intolerance. SRIF secretion from the islets of such rats was distinctly greater than from those of lean controls at all glucose concentrations tested (range, 1.0--16.7 mM). The delta cells of the older obese rats had lost their sensitivity to glucose, while those of lean controls remained sensitive. Beta cells of islets from both obese and lean 15-mo-old rats remained glucose sensitive. Under all conditions tested, secretion of SRIF and insulin was greater from islets of obese than lean rats. The results demonstrate a marked difference in pancreatic delta and beta cell responses to pair feeding in the obese Zucker rat. At present, the role played by hypersecretion of pancreatic SRIF in the obesity syndrome of the Zucker rat remains obscure.
Diabetes 1980 Nov
PMID:Hypersection of pancreatic somatostatin in the obese Zucker rat: effects of food restriction and age. 610 55

Somatostatin-like immunoreactivity (SRIF-LI) content in 2 N acetic acid extracts of hypothalamus, gastric antrum, and pancreas was measured in genetically obese (C57BL/6J ob/ob and db/db) and diabetic (C57BL/KsJ db/db and ob/ob) mice and normal littermate controls from 5 to 24 wk to determine the relationship of previously reported changes to the development of metabolic abnormalities. Hypothalamic SRIF-L concentration was similar in control, diabetic, and obese mice at all ages and increased progressively with age in all groups. Gastric antrum SRIF-LI was similar in all groups of mice at all ages. Obese mice gained weight progressively and showed moderate hyperglycemia and marked hyperinsulinemia from 5 wk of age. Pancreatic SRIF-LI content in obese (C57BL/6J) animals was similar to that in lean littermate controls, but pancreatic SRIF-LI concentration (expressed by weight or protein content) was decreased until 8 (6J ob/ob) and 10 (6J db/db) wk. Diabetic (C57BL/KsJ) mice showed a similar metabolic pattern until 10 wk with no change in pancreatic SRIF-LI content or concentration. Thereafter a progressive fall in serum insulin and a marked rise in serum glucose was associated with increasing pancreatic SRIF-LI content and concentration. These studies suggest that the genetically hyperphagic syndromes are unassociated with any change in hypothalamic or gastric SRIF-LI; that pancreatic SRIF-LI increases occur in response to, rather than as the cause of, relative hypoinsulinemia; and that the genetic background of the mice (KsJ or 6J) rather than the mutant gene (db or ob) determines the defect in carbohydrate metabolism and the pancreatic SRIF-LI response.
Diabetes 1980 Sep
PMID:Temporal relationship of tissue somatostatin-like immunoreactivity to metabolic changes in genetically obese and diabetic mice. 610 73

Some aspects of the physiology and pathophysiology of somatostatin (somatotropin release inhibiting factor, SRIF) and its relation to other endocrine system are reported in a review. Somatostatin has influence on many organs and organ functions. The clinical importance and possibilities of the therapeutic use of somatostatin and its analogues in case of diabetes mellitus and other endocrine and gastrointestinal diseases are discussed.
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PMID:[Somatostatin. II: Physiology, pathophysiology and clinical significance]. 611 69

The hormonal content of the commercial insulins most commonly used in Canada (Connaught) and the USA (Lilly) was measured, and the prevalence of antibodies to these hormones was determined in the serum of diabetics treated with one of these preparations. Connaught insulins contained 62 +/- 10 ng pancreatic polypeptide (PP)/100 U insulin, 11 +/- 2 ng glucagon/100 U, and 56 +/- 16 pg somatostatin (SRIF)/100 U. Lilly single peak insulins contained 693 +/- 41 pg PP/100 U, 8 +/- 2 ng glucagon/100 U, and 323 +/- 174 pg SRIF/100 U, whereas the recently introduced Lilly improved single peak insulins contained 8 +/- 2 ng PP/100 U, 30 +/- 10 ng glucagon/100 U, and 43 +/- 1 pg SRIF/100 U. Lilly highly purified Iletin II pork insulin contained 1.0 ng PP/100 U, 0.4 ng glucagon/100 U, and 19 pg SRIF/100 U. Of 111 diabetics treated with Connaught insulin, 91% had antibodies to insulin, 51% had antibodies to PP, 14% had antibodies to glucagon, and 6% had antibodies to SRIF. Antibodies to PP were also found in 2 control subjects (n = 30). In patients who had taken Connaught insulin for 10 yr or more, 97% had insulin antibodies, 84% had PP antibodies, 14% had glucagon antibodies, and 11% had SRIF antibodies. Fasting serum GH levels were normal in all patients with SRIF antibodies. Cord blood from two pregnancies in insulin-treated diabetic mothers contained antibodies to the same hormones as maternal production of antibodies to insulin, PP, glucagon, and SRIF. The importance of these antibodies in the pathophysiology of diabetes is discussed.
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PMID:Antibodies to insulin, pancreatic polypeptide, glucagon, and somatostatin in insulin-treated diabetics. 611 33

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