UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The neonatal streptozocin (STZ) rat model of NIDDM has been previously found to have a markedly reduced insulin response to an acute increase in glucose concentration. We studied the effect of an acute reduction in glucose concentration on insulin and glucagon secretion in this model and contrasted the results with the effects of epinephrine and somatostatin using the in vitro isolated, perfused pancreas. The reduction in perfusate glucose concentration from 11.1 to 2.8 mM caused a rapid suppression of insulin release in the control rats, but had no inhibitory effect in the STZ group. Epinephrine (55 nM) and somatostatin (110 nM) caused similar decreases in insulin secretion in both groups. The glucose reduction also caused an increase in glucagon release in the controls, but had no effect in the STZ rats. Epinephrine, however, stimulated glucagon secretion in both groups in a similar fashion, and inhibition by somatostatin was also comparable. The baseline insulin and glucagon concentrations were enhanced in a separate series of experiments by the addition of arginine (5 mM) to the perfusate, and while the insulin and glucagon responses to the glucose reduction remained lost, appropriate inhibition of insulin secretion was demonstrated in the STZ rats with epinephrine. These data indicate that A- and B-cells in this rat model of NIDDM are selectively unresponsive to both increases and decreases in glucose concentration, while the responsiveness to nonglucose agents remains intact.
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PMID:Unresponsiveness to glucose in a streptozocin model of diabetes. Inappropriate insulin and glucagon responses to a reduction of glucose concentration. 286 Nov 28

Glucose disposal rates (Rd) during an insulin clamp study reflect both basal and insulin-stimulated Rd. To quantify the amount of glucose taken up in response to a known increase in insulin concentration, two consecutive studies were performed on 10 patients with mild to moderate NIDDM (mean fasting glucose = 146 mg/dl) and 10 normal subjects. Endogenous insulin secretion was inhibited by somatostatin and plasma glucose level maintained at 180 mg/dl for 5. Rd (mg/m2/min) was determined isotopically for 2.5 h at insulin concentrations approximately 6 microU/ml and during 2.5 h of physiologic hyperinsulinemia at approximately 60 microU/ml (total glucose disposal), with the increase in Rd resulting from the approximate 10-fold elevation of plasma insulin concentration defined as insulin-stimulated glucose disposal. Results showed that the increment in Rd resulting from the elevation of plasma insulin concentration was relatively minor in NIDDM (38 +/- 6), increasing from a mean (+/- SEM) value of 83 +/- 8 to 121 +/- 12. Similar values in normal subjects were 90 +/- 7 and 274 +/- 26 with an increment of 183 +/- 21. Thus, insulin-stimulated glucose uptake in patients with NIDDM was only one-fifth of that in normals, and accounted for only 31% (38 divided by 121) of total glucose disposal during the clamp study. These data indicate that the majority of previous insulin clamp studies of in vivo insulin action in patients with NIDDM, in which total glucose disposal and insulin-stimulated glucose disposal have been equated, have underestimated the magnitude of insulin resistance present in NIDDM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Quantitation of insulin-stimulated glucose disposal in patients with non-insulin-dependent diabetes mellitus. 286 88

Although insulin is extremely potent in regulating glucose transport in insulin-sensitive tissues, all tissues are capable of taking up glucose by facilitated diffusion by means of a noninsulin-mediated glucose uptake (NIMGU) system. Several reports have estimated that in the postabsorptive state the majority of glucose disposal occurs via a NIMGU mechanism. However, these estimates have been either derived or extrapolated in normal humans. In the present study we have directly measured NIMGU rates in 11 normal (C) and 7 Type II noninsulin-dependent diabetic subjects (NIDDM; mean +/- SE fasting serum glucose, 249 +/- 24 mg/dl). To accomplish this, the serum glucose was clamped at a desired level during a period of insulin deficiency induced by a somatostatin infusion (SRIF, 550 micrograms/h). With a concomitant [3-3H]glucose infusion, we could isotopically quantitate glucose disposal rates (Rd) during basal (basal insulin present) and insulin-deficient (SRIF) conditions. With this approach we found that (a) basal Rd was greater in NIDDM than in C, 274 +/- 31 vs. 150 +/- 7 mg/min, due to elevated hepatic glucose output, (b) NIMGU composes 75 +/- 5% of basal Rd in C and 71 +/- 4% in NIDDM, (c) NIDDMS have absolute basal NIMGU rates that are twice that of C (195 +/- 23 vs. 113 +/- 8 mg/min, P less than 0.05), (d) when C were studied under conditions of insulin deficiency (SRIF infusion) and at a serum glucose level comparable to that of the NIDDM group (250 mg/dl), their rates of NIMGU were the same as that of the NIDDM group (186 +/- 19 vs. 195 +/- 23 mg/min; NS). We conclude that (a) in the postabsorptive state, NIMGU is the major pathway for glucose disposal for both C and NIDDM; (b) for a given glucose level the efficiency of NIMGU (NIMGU divided by serum glucose level) is equal in C and NIDDM, but since basal Rd is elevated in NIDDMs their absolute basal rates of NIMGU are higher; and (c) elevated basal rates of NIMGU in NIDDM may play a role in the pathogenesis of the late complications of diabetes.
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PMID:Rates of noninsulin-mediated glucose uptake are elevated in type II diabetic subjects. 286 74

Ten acromegalic patients, four previously untreated, were studied before and at regular intervals during treatment with the long-acting somatostatin analog SMS 201-995 (200-300 micrograms daily for 2 or 3 sc injections for 16-108 weeks). All patients had rapid clinical improvement, with disappearance of excessive perspiration, paresthesias, and headache within the first 6 weeks of therapy. The mean 24-h serum GH concentrations fell from 44.0 +/- 7.8 (+/-SE) micrograms/L before to 5.9 +/- 1.0 microgram/L at the end of therapy. The GH levels from 2-6 h after the acute administration of 50 micrograms SMS 201-995 before the start of therapy correlated significantly with the mean 24-h GH concentrations after 16-108 weeks of treatment (P less than 0.05). The initially increased serum somatomedin-C (Sm-C) levels normalized in 5 of these 10 patients; the mean values were 7.3 +/- 0.9 U/mL before and 2.9 +/- 0.7 U/mL at the end of therapy. The Sm-C and mean GH levels continuously decreased during long term therapy; the concentrations after 1.5-2 yr of therapy were significantly lower than those after 6-12 months of therapy (P less than 0.01 and P less than 0.01, respectively). A slight decrease in the size of the pituitary tumor was noted by computed tomography in three of six patients. Transient clinically detectable steatorrhea occurred in two patients. Postprandial hyperglycemia occurred during therapy in eight patients, while in two patients with type 2 diabetes mellitus carbohydrate tolerance improved in one and deteriorated in the other. SMS 201-995 is a highly effective medical treatment for acromegaly. Clinically improvement occurs rapidly, and the inhibition of serum GH and Sm-C levels persisted even after more than 1 yr of therapy. No important subjective side-effects were noted. SMS 201-995 is an excellent drug in patients in whom acromegaly persists after surgery and for interim treatment to shorten the period of clinical activity after irradiation.
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PMID:SMS 201-995 induces a continuous decline in circulating growth hormone and somatomedin-C levels during therapy of acromegalic patients for over two years. 288 85

In contrast to the United State, type 2 diabetes appears to be a common occurrence in non-obese Asians. In order to evaluate the possibility that this epidemiologic difference was indicative of a basic metabolic phenomenon, estimates of insulin secretion and insulin action were generated in 32 Chinese males, 16 with type 2 diabetes and 16 with normal glucose tolerance. Half of the individuals in each diagnostic category were obese (body mass index greater than 28 kg/m2) and half were non-obese (less than 26 kg/m2). Plasma glucose responses to a 75-g oral glucose challenge were significantly higher in patients with type 2 diabetes, but did not vary significantly within either group as a function of obesity. Plasma insulin concentrations were lower than normal when patients with type 2 diabetes were compared to their weight-matched controls. In addition, the absolute insulin values also varied as a function of body weight, with higher plasma insulin concentrations observed in the obese individuals. Insulin action was estimated by determination of the steady-state plasma insulin (SSPI) and glucose (SSPG) concentrations during the last 60 min of a continuous 180-min intravenous infusion of somatostatin, crystalline insulin, and glucose. Under these conditions endogenous insulin secretion is suppressed, SSPI concentrations are similar in all individuals, and SSPG concentrations provide a quantitative estimate of insulin-stimulated glucose disposal. The results of these studies indicated that patients with type 2 diabetes had significantly elevated SSPG concentrations as compared to normals, and this was true whether the diabetic subjects were obese or non-obese.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin secretion and insulin action in Taiwanese with type 2 diabetes. 289 74

Hormonal and glycemic changes in 22 rhesus monkeys were characterized during the first days after treatment with streptozotocin (STZ) (45 to 55 mg/kg, administered intravenously [IV]). Almost half (10/22) of the monkeys developed insulin-dependent diabetes mellitus (STZ-IDDM) within five days following injection. Four of the remaining monkeys did not become insulin dependent for at least 6 months after STZ treatment, during which time they were considered non-insulin-dependent, and eight monkeys never required exogenous insulin. In the STZ-IDDM group, plasma immunoreactive c-peptide (IRC-P) levels fell by three hours after STZ from a mean +/- SEM of 252 +/- 82 to 101 +/- 45 pg/mL, as glucose and immunoreactive glucagon (IRG) levels increased from 65 +/- 3 and 120 +/- 37, respectively, to 336 +/- 43 mg/dL and 234 +/- 52 pg/mL, respectively. Between six and 30 hours after treatment, IRC-P increased to a peak of 1,561 +/- 360 pg/mL before falling permanently to less than 60 pg/mL by 66 hours. During this period, glucose and IRG responded in a reciprocal fashion by falling and then increasing to levels above 300 mg/dL and 300 pg/mL, respectively, by 66 hours. In the non-insulin-dependent diabetes mellitus (STZ-NIDDM) group, no clear reciprocal relationship between IRC-P and glucose and IRG was obtained. In nine additional monkeys subjected to total pancreatectomy (Px), IRC-P and IRG levels fell immediately and permanently by greater than 90% and 75%, respectively. Levels of immunoreactive somatostatin increased steadily over the initial 96 hours following STZ, but did so both STZ-IDDM and Px monkey groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biochemical changes in rhesus monkey during the first days after streptozotocin administration are indicative of selective beta cell destruction. 296 84

Although there are abnormalities in the function of pancreatic alpha, delta, and PP cells in NIDDM, only in the case of the glucagon-secreting alpha cells is there sufficient evidence to indicate that these abnormalities may be metabolically important. But the cause of abnormal glucagon secretion remains to be established. Studies of delta-cell secretion have been hampered by the inability to determine the source of circulating somatostatin-like immunoreactivity and the failure to distinguish between the potential molecular species being measured. Pancreatic polypeptide remains a hormone in search of a metabolic function; the main use of its measurement may be in the study of parasympathetic nervous system function in NIDDM.
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PMID:Non-beta-cell islet abnormalities in noninsulin-dependent diabetes mellitus. 304 41

Hyperfiltration is a very characteristic feature in insulin-dependent diabetes. Hyperfiltration is to some extent associated with long-term glycemic control but the correlation is not very strong. Long-term hyperfiltration may play a role in the genesis of late diabetic nephropathy, but it is difficult to distinguish effects of hyperfiltration per se from effects of poor metabolic control. Long-term hyperfiltration without diabetes does not produce nephropathy. It is hypothesized that IDDM patients who do not show considerable hyperfiltration in spite of poor metabolic control may be those who are to some extent protected against late diabetic nephropathy, but other mechanisms may also be involved in the renal protection of these patients, who survive long-term diabetes without nephropathy. On the other hand, those with poor metabolic control combined with hyperfiltration are likely to develop nephropathy. In addition, it is suggested that the metabolic aberrations in diabetes, with the subsequent changes in the biochemistry of the glomerular wall, are permissive and absolutely required for the development of diabetic nephropathy. Of note, diabetic glomerulopathy in NIDDM occurs without significant hyperfiltration and extreme hyperfiltration in the one-kidney-model (without diabetes) does not produce nephropathy. Nonglycemic modalities of intervention, resulting in reduced hyperfiltration, e.g., low-protein diet or administration of somatostatin analogues, deserves interest as new potential ways of preventing or postponing diabetic nephropathy. Also intervention with aldose-reductase inhibitors may be an important therapeutic modality for those patients in whom good metabolic control is not obtainable. It is now well-established that antihypertensive treatment, including ACE-inhibition, reduces rate of decline in GFR in patients with already established nephropathy. In addition, protein excretion is diminished in IDDM patients with incipient diabetic nephropathy by antihypertensive treatment where GFR is well-preserved during treatment. No data are available for NIDDM.
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PMID:Comparative renal pathophysiology relevant to IDDM and NIDDM patients. 306 56

Hyperglycaemia may enhance insulin resistance typical of non-insulin dependent diabetes mellitus, as well as insulin dependent diabetes mellitus, and thus initiate a vicious pathogenetic cycle. We sought to test the hypothesis that reduction in chronic hyperglycaemia in the diabetic dog by methods that do not employ insulin may improve insulin resistance. We used the glucuretic agent phlorizin in dogs rendered chronically hyperglycaemic and diabetic by alloxan treatment. To analyse glucose disposition the euglycaemic clamp was performed. To minimize the role of counterregulatory influences that might be at play when glucose is reduced, the hyperglycaemic clamp with continuous somatostatin infusion was performed. Although phlorizin normalised plasma glucose in the diabetic dog and reduced plasma glucose in normal, non-diabetic dogs, insulin dependent glucose disposition rate did not improve. While phlorizin itself was associated with insulin resistance in the normal animals, the insulin resistance of diabetes mellitus was not further augmented. We conclude that phlorizin is associated with insulin resistance perhaps by a common pathway shared by chronic hyperglycaemia. Care must be taken when phlorizin is used as an agent to study glucose disposition.
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PMID:Antecedent chronic hyperglycaemia blocks phlorizin-induced insulin resistance in the dog. 338 20

Human plasma contains substances that interfere with the radioimmunoassay (RIA) of somatostatin-like immunoreactivity (SLI). A method has been developed for rapid, reproducible extraction of somatostatin from human plasma on octadecylsilylsilica (ODS). Hydrophobic binding of somatostatin to ODS permitted extraction of the peptide from untreated human plasma, elution of less tightly bound substances with dilute acid, and then elution of somatostatin by 80:20 acetonitrile:0.1% trifluoroacetic acid. The lyophilized extract was reconstituted to a volume of 0.5 ml prior to quantification by RIA. This 6-fold concentration resulted in an effective lower limit of detection of 7.5 pg/ml of plasma. The interassay coefficient of variation for the combined extraction and RIA was 20% (n = 10) at a mean plasma level of 15 pg/ml. Basal concentrations of somatostatin in human plasma ranged from 8 to 20 pg/ml (n = 35, mean - 13.3 +/- 0.4). Basal somatostatin levels (mean = 14.0 +/- 0.4 pg/ml) for nonobese (BMI less than 30, n = 10) were not different from values (mean = 13.3 +/- 0.7 pg/ml) observed for the obese group (BMI greater than 35, n = 17) nor from the values (n = 8, x = 15.4 +/- 1.2 pg/ml) obtained for subjects with non-insulin dependent diabetes mellitus.
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PMID:Extraction of somatostatin from human plasma on octadecylsilyl silica. 612 26

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