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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effect of glucocorticoids on adipose tissue lipolysis in animals and humans is controversial. To determine whether a physiological increase in plasma cortisol, similar to that observed in diabetic ketoacidosis and other stress conditions, stimulates lipolysis, palmitate kinetics were measured in seven nondiabetic volunteers on two occasions with [1-14C]palmitate as a tracer. Subjects received a 6-h infusion of either 2 micrograms.kg-1.min-1 hydrocortisone or saline in random order. On both occasions, a pancreatic clamp (0.12 micrograms.kg-1.min-1
somatostatin
, 0.05 mU.kg-1.min-1 insulin, and 3 ng.kg-1.min-1 growth hormone) was used to maintain plasma hormone concentrations at desired levels. Plasma cortisol concentrations increased to approximately 970 nM during cortisol infusion.
Palmitate
rate of appearance (Ra) and concentration increased by approximately 60% during cortisol infusion but did not change during saline infusion. Increments in palmitate Ra and concentration over the 6-h study were significantly greater during cortisol than saline infusion when compared by area-under-the-curve analysis (152 +/- 52 vs. -48 +/- 23 mumol.kg-1 and 12.2 +/- 4.1 vs. -4.9 +/- 4.1 mmol.min-1.L-1, respectively; P less than 0.02). Plasma glucose concentrations did not change significantly during cortisol (5.0 +/- 0.3 vs. 6.1 +/- 0.6 mM, NS) or saline (4.9 +/- 0.2 vs. 4.9 +/- 0.1 mM, NS) infusion. In nondiabetic volunteers, a 6-h cortisol infusion was associated with a 60% increase in palmitate Ra that did not occur with saline infusion. Thus, physiological hypercortisolemia may contribute to the increased rates of lipolysis observed in humans during stress.
...
PMID:Stimulation of lipolysis in humans by physiological hypercortisolemia. 193 85
Controversy exists regarding whether plasma glucose concentrations are independently involved in the regulation of adipose tissue lipolysis. In the present study, six subjects with insulin-dependent diabetes and six nondiabetic volunteers were studied during infusion of
somatostatin
, growth hormone, and insulin at rates designed to maintain basal rates of lipolysis, which was traced using a constant infusion of [1-14C]palmitate. A euglycemic (approximately 5 mmol/l) clamp was performed for 3 h, followed by 3 h of hyperglycemia (approximately 9 and approximately 11 mmol/l in nondiabetic and diabetic subjects, respectively). Ten nondiabetic subjects were studied during 6 h of euglycemia to exclude time-dependent changes in lipolysis. The results showed that palmitate concentrations did not change between euglycemia and hyperglycemia in either group [118 +/- 10 vs. 132 +/- 14 mumol/l and 145 +/- 21 vs. 134 +/- 15 mumol/l in nondiabetic and diabetic subjects, respectively; both P = not significant (NS)]. Similarly, palmitate rate of appearance (Ra) did not change during hyperglycemia (1.0 +/- 0.1 and 1.7 +/- 0.4 mumol.kg-1.min-1 in nondiabetic and diabetic subjects, respectively) compared with euglycemia (1.0 +/- 0.1 and 1.6 +/- 0.4 mumol.kg-1.min-1 in nondiabetic and diabetic subjects, respectively; P = NS).
Palmitate
concentrations and Ra did not change during 6 h of euglycemia in nondiabetic volunteers. Thus hyperglycemia per se has no effect on free fatty acid turnover. Changes in lipolysis that occur coincident with hyperglycemia are probably due to changes in other circulating substrates or hormones known to affect lipolysis.
...
PMID:Lack of effect of hyperglycemia on lipolysis in humans. 197 22
We have used primed constant infusions of [1-13C]
palmitic acid
, [2-3H]glycerol, and [U-14C]glucose to evaluate the response of glucose and fat kinetics to alpha or beta adrenergic blockade in conscious dogs. The response of each blocking agent was evaluated both with and without control of the glucoregulatory hormones. When hormones were controlled,
somatostatin
and metyrapone were infused to block hormonal secretion, and insulin, glucagon, growth hormone, and cortisol were replaced at basal physiological rates. alpha blockade (beta stimulation) did not influence glucose production or oxidation, but it did decrease glucose clearance when hormones were controlled. Clearance did not decrease during blockade when hormones were not controlled, presumably because of the resulting increase in the plasma insulin concentration. Glucose production, plasma glucose concentration, and glucose oxidation all increased with beta blockade (alpha stimulation). alpha blockade (beta stimulation) resulted in an increase in lipolysis, whereas beta blockade (alpha stimulation) resulted in a decrease in lipolysis. In neither case, however, did FFA oxidation change. We conclude that (a) the predominant effect of unopposed stimulation is the stimulation of lipolysis, whereas unopposed alpha stimulation inhibits lipolysis. Direct effects of either alpha or beta stimulation on glucose kinetics are less dramatic, but both alpha and beta stimulation decrease glucose clearance.
...
PMID:The integrated effect of adrenergic blockade on glucose, fatty acid, and glycerol kinetics: responses in the basal state and during hormonal control with somatostatin-hormonal infusion. 288 Oct 26
The effect of gram-negative sepsis on the kinetics and oxidation of very low-density lipoprotein (VLDL) fatty acids was assessed in conscious dogs in the normal state and 24 h after infusion of live Escherichia coli. VLDL, labeled with [2-3H]glycerol and [1-14C]
palmitic acid
, was used to trace VLDL kinetics and oxidation, and [1-13C]
palmitic acid
bound to albumin was infused simultaneously to quantify kinetics and oxidation of free fatty acid (FFA) in plasma. Sepsis caused a fivefold increase in the rate of VLDL production (RaVLDL). In the control dogs, the direct oxidation of VLDL-fatty acids was not an important contributor to their overall energy metabolism, but in dogs with sepsis, 17% of the total rate of CO2 production could be accounted for by VLDL-fatty acid oxidation. When glucose was infused into dogs with insulin and glucagon levels clamped at basal levels (by means of infusion of
somatostatin
and replacement of the hormones), RaVLDL increased significantly in the control dogs, but it did not increase further in dogs with sepsis. We conclude that the increase in triglyceride concentration in fasting dogs with gram-negative sepsis is the result of an increase in VLDL production and that the fatty acids in VLDL can serve as an important source of energy in sepsis.
...
PMID:Effect of sepsis on VLDL kinetics: responses in basal state and during glucose infusion. 389 May 59
We have investigated the effect of infusion of DL-beta-hydroxybutyrate (BOHB) (30 mumol X kg-1 X min-1) on glucose and free fatty acid (FFA) metabolism by means of the primed constant infusion of [U-14C]glucose and [1,2-13C]
palmitic acid
. The role of the hormonal response to the ketone infusion was assessed by controlling the hormone levels pharmacologically. In one group hormones were not controlled, while in the other two groups insulin and glucagon were maintained at constant levels by infusion of
somatostatin
, insulin, and glucagon at constant rates. In one of these hormonally controlled groups, combined alpha- and beta-adrenergic blockade was also employed. BOHB infusion increased total ketone concentration approximately 10-fold and, when hormones were not controlled, induced a significant increase in glucagon concentration. Regardless of hormonal status, elevation of the ketone levels decreased the rate of glucose production and FFA appearance. Glucose oxidation decreased in proportion to the reduction in the rate of glucose uptake in all groups. When sympathetic activity was not blocked an increase in the percent of FFA uptake oxidized enabled the percent CO2 production from FFA oxidation to remain constant despite the decrease in FFA uptake. However, when sympathetic activity was blocked the increase in the percent of FFA uptake oxidized observed in the other groups was prevented. We conclude from these studies that an elevation in ketone levels directly affects glucose and FFA metabolism independent of changes in insulin and glucagon levels and sympathetic activity.
...
PMID:Influence of beta-hydroxybutyrate infusion on glucose and free fatty acid metabolism in dogs. 609 72
The hypothesis was made of an increased oxidation of fatty acids (FFA) and a decrease of their esterification rate contributing to the islet secretory defect during starvation. 2-Bromostearate (BrS), a FFA-oxidation inhibitor, was therefore tested on the islet secretion of insulin, glucagon and
somatostatin
stimulated by glucose or palmitate under fasted or fed conditions. Starvation for 48 h blocked both the glucose-induced stimulation and inhibition of insulin and
somatostatin
and the glucagon secretion. BrS completely restored the insulin response and stimulated both
somatostatin
and glucagon-basal release, the latter inhibition by glucose being partially recovered.
Palmitate
transient stimulation of insulin and
somatostatin
and inhibition of glucagon release was turned into a sustained increase in all three cases by addition of BrS. The potentiation by BrS of palmitate secretory effects in "fed" islets and of hormone release in "fasted" islets, apparently suggest that inhibition of FFA-oxidation may play a role in the regulation of islet secretion.
...
PMID:Starvation-induced secretory changes of insulin, somatostatin, and glucagon and their modification by 2-bromostearate. 614 16
To examine whether hyperglycemia is an independent regulator of adipose tissue lipolysis, we measured palmitate flux ([3H]palmitate) on two occasions in eight volunteers with insulin-dependent diabetes. On one. occasion, euglycemia was maintained for 4 h continuously; on a different occasion, hyperglycemia (plasma glucose, 12 mmol/l) was induced after 2 h of euglycemia.
Palmitate
flux decreased from 1.39 +/- 0.22 to 1.25 +/- 0.18 mumol.kg-1 x min-1 during sustained euglycemia and from 1.43 +/- 0.24 to 1.13 +/- 0.19 mumol.kg-1 x min-1 during the transition from the euglycemic to the hyperglycemic study intervals. There were no significant differences between the changes in palmitate flux from the first to the second study interval on the control (euglycemia-euglycemia) and experimental (euglycemia-hyperglycemia) study days and no difference between palmitate flux on different study days. Thus, in the face of euinsulinemia, euglucagonemia, and the absence of
somatostatin
, no effect of hyperglycemia on free fatty acid metabolism could be detected in humans.
...
PMID:Lack of effect of hyperglycemia on lipolysis in humans. 827 35
IDX-1 (islet/duodenum homeobox-1) is a transcription factor expressed in the duodenum and pancreatic beta and delta cells. It is required for embryonic development of the pancreas and transactivates the Glut2, glucokinase, insulin, and
somatostatin
genes. Here we show that exposure of isolated rat pancreatic islets to
palmitic acid
induced a approximately 70% decrease in IDX-1 mRNA and protein expression as well as 40 and 65% decreases in the binding activity of IDX-1 for its cognate cis-regulatory elements of the Glut2 and insulin promoters, respectively. The inhibitory effect of
palmitic acid
required its mitochondrial oxidation since it was prevented by the carnitine palmitoyltransferase I inhibitor bromopalmitic acid. The
palmitic acid
effect on IDX-1 was correlated with decreases in GLUT2 and glucokinase expression of 40 and 25%, respectively, at both the mRNA and protein levels. Insulin and
somatostatin
mRNA expression was also decreased by 40 and 60%, whereas glucagon mRNA expression was not modified. After 48 h of exposure to fatty acids, total islet insulin,
somatostatin
, and glucagon contents were decreased by 85, 55, and 65%, respectively. At the same time, total hormone release was strongly stimulated (13-fold) for glucagon, whereas its was only marginally increased for insulin and
somatostatin
(1.5- and 1.7-fold, respectively). These results indicate that elevated fatty acid levels 1) negatively regulate Idx-1 expression; 2) decrease the expression of genes transactivated by IDX-1 such as those for GLUT2, glucokinase, insulin, and
somatostatin
; and 3) lead to an important increase in glucagon synthesis and secretion. Fatty acids thus have pleiotropic effects on pancreatic islet gene expression, and the negative control of Idx-1 expression may be an initial event in the development of these multiple defects.
...
PMID:Fatty acids decrease IDX-1 expression in rat pancreatic islets and reduce GLUT2, glucokinase, insulin, and somatostatin levels. 937 11
The major physiological inhibitors of insulin secretion, norepinephrine,
somatostatin
, galanin, and prostaglandin E2, act via specific receptors that activate pertussis toxin (PTX)-sensitive G proteins. Four inhibitory mechanisms are known: 1) activation of ATP-sensitive K channels and repolarization of the beta-cell; 2) inhibition of L-type Ca2+ channels; 3) decreased activity of adenylyl cyclase; and 4) inhibition of exocytosis at a "distal" site in stimulus-secretion coupling. We have examined the underlying mechanisms of inhibition at this distal site. In rat pancreatic islets, 2-bromopalmitate, cerulenin, and polyunsaturated fatty acids, all of which suppress protein acyltransferase activity, blocked the distal inhibitory effects of norepinephrine in a concentration-dependent manner. In contrast, control compounds such as palmitate, 16-hydroxypalmitate, and etomoxir, which do not block protein acylation, had no effect. Furthermore, 2-bromopalmitate also blocked the distal inhibitory actions of
somatostatin
, galanin, and prostaglandin E2. Importantly, neither 2-bromopalmitate nor cerulenin affected the action of norepinephrine to decrease cAMP production. We also examined the effects of norepinephrine, 2-bromopalmitate, and cerulenin on palmitate metabolism.
Palmitate
oxidation and its incorporation into lipids seemed not to contribute to the effects of 2-bromopalmitate and cerulenin on norepinephrine action. These data suggest that protein acylation mediates the distal inhibitory effect on insulin secretion. We propose that the inhibitors of insulin secretion, acting via PTX-sensitive G proteins, activate a specific protein acyltransferase, causing the acylation of a protein or proteins critical to exocytosis. This particular acylation and subsequent disruption of the essential and precise interactions involved in core complex formation would block exocytosis.
...
PMID:Protein acylation in the inhibition of insulin secretion by norepinephrine, somatostatin, galanin, and PGE2. 1268 22
We have investigated the short-term effects of the saturated free fatty acid (FFA) palmitate on pancreatic alpha-cells.
Palmitate
(0.5 or 1 mmol/l bound to fatty acid-free albumin) stimulated glucagon secretion from intact mouse islets 1.5- to 2-fold when added in the presence of 1-15 mmol/l glucose.
Palmitate
remained stimulatory in islets depolarized with 30 mmol/l extracellular K(+) or exposed to forskolin, but it did not remain stimulatory after treatment with isradipine or triacsin C. The stimulatory action of palmitate on secretion correlated with a 3.5-fold elevation of intracellular free Ca(2+) when applied in the presence of 15 mmol/l glucose, a 40% stimulation of exocytosis (measured as increases in cell capacitance), and a 25% increase in whole-cell Ca(2+) current. The latter effect was abolished by isradipine, suggesting that palmitate selectively modulates l-type Ca(2+) channels. The effect of palmitate on exocytosis was not mediated by palmitoyl-CoA, and intracellular application of this FFA metabolite decreased rather than enhanced Ca(2+)-induced exocytosis. The stimulatory effects of palmitate on glucagon secretion were paralleled by a approximately 50% inhibition of
somatostatin
release. We conclude that palmitate increases alpha-cell exocytosis principally by enhanced Ca(2+) entry via l-type Ca(2+) channels and, possibly, relief from paracrine inhibition by
somatostatin
released by neighboring delta-cells.
...
PMID:Palmitate stimulation of glucagon secretion in mouse pancreatic alpha-cells results from activation of L-type calcium channels and elevation of cytoplasmic calcium. 1550 63
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