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: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mammalian and avian growth hormones (GH) (pituitary derived or biosynthetic) exert two effects on chicken adipose tissue explants in vitro. They (i) increase the basal rate of glycerol release a lipolytic effect) and (ii) inhibit glucagon-stimulated glycerol release (an antilipolytic effect). The ability of lower vertebrate GH preparations to exert lipolytic and antilipolytic effects was examined and biological activity was compared to differences in amino-acid residue sequences and to predicted structure. Irrespective of species origin (blue shark, sturgeon, bonito, yellow tail, salmon, bullfrog, sea turtle), all lower vertebrate GH preparations showed very weak (less than 5% the potency of bovine GH), if any, lipolytic activity, but retained strong antilipolytic activity. The present data indicate that the structural requirements for lipolytic and antilipolytic activities of GH differ in chicken adipose tissue. Despite the high sequence homology (88%) between chicken and sea turtle GH, the latter preparation did not stimulate lipolysis. It is suggested that Pro132, conserved only in lipolytically active GH species (human, bovine, and chicken), represents a major determinant of lipolytic activity in chicken adipose tissue. The structural determinants for antilipolytic activity may comprise any or all of residues 3, 17, 64, 108, 109, and 152.
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PMID:Comparison of lipolytic and antilipolytic activities of lower vertebrate growth hormones on chicken adipose tissue in vitro. 187 Nov 52

To determine the role of reflex neural mechanisms for hormonal, metabolic, heart rate (HR), and blood pressure (MABP) changes during static exercise, seven health young males performed 10-min periods of two-legged static knee extension both during control and during epidural anesthesia. Comparisons were made at identical absolute (29 Nm) and relative [15% maximal voluntary contraction (MVC)] force. Afferent nerve blockade was verified by hypesthesia below T10-T12 and attenuated postexercise ischemic pressor response. Leg strength was reduced to 67 +/- 5% of control. At same relative force, increases in MABP and HR occurred more rapidly without than with epidural anesthesia (P less than 0.05). This difference was diminished during identical absolute force. Changes in plasma concentrations of catecholamines followed the pattern of HR and MABP responses, with differences between epidural and control experiments being most pronounced early in the work period. Plasma beta-endorphin was elevated only after control exercise. No response at 15% MVC was found for growth hormone, adrenocorticotropic hormone, insulin, glucagon, cortisol, glycerol, free fatty acids, or glucose (P greater than 0.05). In conclusion, during static exercise with large muscle groups and moderate relative force, modest changes in plasma hormones and metabolites take place. Furthermore, afferent nervous feedback from contracting muscles is important in regulation of blood pressure, heart rate, and catecholamine responses during static exercise in humans.
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PMID:Hormonal, metabolic, and cardiovascular responses to static exercise in humans: influence of epidural anesthesia. 187 83

Incubation of intact hepatocytes with either of the synthetic diacyl glycerols 1-oleoyl-2-acetyl glycerol (OAG) or dihexanoyl glycerol (DHG) caused the transient uncoupling of the ability of glucagon to stimulate adenylate cyclase in membranes prepared from those cells. No change occurred in either the activity of the catalytic unit of adenylate cyclase or the coupling of Gs to adenylate cyclase. Diacyl glycerol action appeared to mimic glucagon-mediated desensitization of adenylate cyclase, suggesting that protein kinase C activation may provide the molecular trigger for glucagon desensitization.
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PMID:Treatment of intact hepatocytes with synthetic diacyl glycerols mimics the ability of glucagon to cause the desensitization of adenylate cyclase. 191 34

To examine the effect of increased gluconeogenesis [by increasing free fatty acids (FFA)] on hepatic glucose output (HGO) and on the first substrate (glucose) cycle, a primed continuous infusion of [2-3H]- and [6-14C]glucose was infused to isotopic steady state in 12 normal male volunteers after an overnight fast. Blood samples for the determination of glucose specific activity were obtained before and after an infusion of saline (n = 6) or 10% Intralipid and heparin (90 mU.kg-1.min-1, n = 6). Plasma FFA (593.3 +/- 74.5 to 971.1 +/- 127.1 mumol/l, P = 0.007) and glycerol (68.0 +/- 5.9 vs. 222.4 +/- 32.0 mumol/l, P = 0.002) increased during the lipid infusion, and beta-hydroxybutyrate levels rose from 0.24 +/- 0.12 to 0.50 +/- 0.17 mmol/l (P = 0.01). No change in plasma glucose, insulin, or glucagon levels was observed during the study, and levels of the gluconeogenic substrates alanine and lactate were also unchanged. Baseline rates of glucose cycling (rate of appearance of [2-3H]glucose minus rate of appearance of [6-14C]glucose) were similar in the two groups [1.44 +/- 0.33 vs. 1.33 +/- 0.44 mumol.kg-1.min-1, not significant (NS)] and did not change during either saline or lipid infusion, respectively. However, Cori cycle activity (the conversion of [6-14C]- to [1-14C]glucose) increased significantly from 0.59 +/- 0.19 to 1.28 +/- 0.19 mumol.kg-1.min-1 (P = 0.002) after FFA and glycerol levels had been increased, in marked contrast to the saline control (0.51 +/- 0.18 to 0.39 +/- 0.18 mumol.kg-1.min-1, NS).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vivo evidence for hepatic autoregulation during FFA-stimulated gluconeogenesis in normal humans. 192 34

The lipolytic and ketogenic effects of norepinephrine (NE) at levels present in the circulation or the synaptic cleft during stress were examined in the overnight-fasted conscious dog. Insulin and glucagon were maintained at basal levels while NE, at a rate of either 0.04 (n = 6) or 0.32 micrograms.kg-1.min-1 (n = 5), or saline (n = 6) was infused for 3 h. NE rose from 129 +/- 17 to 442 +/- 85 pg/ml (P less than 0.05) and 100 +/- 24 to 3,244 +/- 807 pg/ml (P less than 0.05) with the low and high infusion rates, respectively (unchanged with saline infusion). There were no significant changes in lipolysis or ketogenesis with saline infusion. Both low and high NE infusion produced sustained increases in glycerol (from 72 +/- 20 to 119 +/- 24 microM and 59 +/- 19 to 248 +/- 32 microM, respectively, both P less than 0.05), while nonesterified fatty acids (NEFA) rose from 609 +/- 85 to 952 +/- 100 and 767 +/- 140 to 2,054 +/- 199 microM (both P less than 0.05). Ketone levels and net hepatic production rose significantly only with the high NE infusion (from 88 +/- 10 to 266 +/- 46 microM and 1.30 +/- 0.26 to 7.62 +/- 1.48 mumol.kg-1.min-1, respectively, both P less than 0.05). The ratio of net hepatic ketone production to NEFA uptake rose 54% with high NE infusion. In conclusion, at circulating levels seen during stress, NE stimulates lipolysis but does not directly influence ketogenesis. At circulating levels projected to exist in the synaptic cleft during stress, NE has a potent lipolytic effect and stimulates ketogenesis.
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PMID:Regulation of lipolysis and ketogenesis by norepinephrine in conscious dogs. 192 38

Glucagon is a highly conserved polypeptide hormone which appears to play a more important role in regulation of glycaemia in birds than insulin. Ostrich glucagon was isolated and purified from ostrich pancreas splenic lobes using an adapted acid ethanol extraction procedure, gel filtration, ion exchanges, and HPLC steps. The purified glucagon fraction appeared to contain small quantities of a more acidic contaminant (polyacrylamide gel isoelectric focussing, PAGE) but appeared homogeneous on SDS-PAGE. Amino acid analysis and sequence analysis showed identity with the duck hormone. Identity with the duck hormone was confirmed by liquid phase as well as gas phase sequencing. The ostrich glucagon preparation seemed to have a higher Km than the porcine homologue in stimulating glycerol release from isolated chicken adipocytes.
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PMID:Purification and primary structure of glucagon from ostrich pancreas splenic lobes. 193 10

Compared with untrained (UT) subjects, in trained (T) subjects the increased insulin sensitivity and decreased glucose induced insulin secretion would tend to promote health by decreasing glucose levels and insulin secretion whereas the increased food intake would tend to increase these variables. To study the net effect of training, blood was sampled from seven T and eight UT young men [VO2max: 76 +/- 2 (T) vs. 48 +/- 1 (UT) mL.kg-1.min-1] for 24 h during ordinary living conditions. Athletes exercised 204 +/- 20 min and ate 50% more calories and 130% more carbohydrate than UT subjects (P less than 0.05). However, 24-h integrated plasma concentrations of glucose, C-peptide, glucagon, free fatty acids, and glycerol as well as glycosylated hemoglobin levels were identical in T and UT subjects. Mean insulin concentration was 41% lower in T than in UT but levels differed significantly (P less than 0.05) only late during the night. Urinary excretion of pancreatic peptides paralleled plasma concentrations. In conclusion, during training adaptations in pancreas- and insulin-sensitive tissues allow the necessary increase in food intake without harmful hyperglycemia and overloading of beta-cells, but sparing of insulin secretion and reductions in glucose levels are only relative to food intake. However, training may be wholesome by increasing hepatic insulin extraction and thereby decreasing arterial insulin levels. Training-induced beta-cell adaptation is not caused by diminished average glucose levels. Finally, renal handling of insulin, C-peptide, and glucagon is not influenced by training.
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PMID:Twenty-four-hour profile of plasma glucose and glucoregulatory hormones during normal living conditions in trained and untrained men. 193 36

The effects of a selective increase in epinephrine on ketogenesis and lipolysis were determined in the conscious dog following a prolonged fast (7 days). Plasma insulin and glucagon were fixed at basal levels by infusion of somatostatin (0.8 micrograms/kg/min) and basal intraportal replacement amounts of insulin (210 +/- 20 microU/kg/min) and glucagon (0.65 ng/kg/min). Following a 40-minute control period, saline or epinephrine (0.04 microgram/kg/min) was infused for 3 hours. Plasma insulin, glucagon, and norepinephrine levels did not change during saline (6 +/- 1 microU/mL, 83 +/- 17 pg/mL, and 137 +/- 38 pg/mL, respectively) or epinephrine (10 +/- 1 microU/mL, 73 +/- 18 pg/ml, 98 +/- 13 pg/mL, respectively) infusion. Plasma epinephrine levels increased from 80 +/- 26 to 440 +/- 47 pg/mL in response to infusion of the catecholamine, but remained unchanged during saline infusion. Glycerol levels (93 +/- 10 mumol/L) remained unchanged during saline infusion, but increased in response to epinephrine (108 +/- 9 to 170 +/- 18 mumol/L by 30 minutes). The glycerol level had returned to baseline and to the value apparent in saline controls by 60 minutes. The nonesterified fatty acid (NEFA) level declined slowly during the 3-hour saline infusion, but was elevated in response to epinephrine infusion (1.27 +/- 0.16 to 1.97 +/- 0.25 mmol/L at 30 minutes). After the initial epinephrine-induced increase, the NEFA level declined so that by 3 hours it was not significantly different from the basal or saline values.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effects of epinephrine on ketogenesis in the dog after a prolonged fast. 194 32

To investigate whether changes in systemic pH influence ketone body production or utilization, total ketone body (TK) kinetics were measured with [3-14C]acetoacetate and D-beta-[1,3-13C2]hydroxybutyrate tracers in overnight fasted subjects during metabolic alkalosis (NaHCO3 infusion) or acidosis [NH4Cl ingestion or arginine (Arg)-HCl infusion]. Somatostatin, with insulin, glucagon, and growth hormone replacement, was infused in all studies. Blood pH and HCO3- (mM) increased from baseline (0-30 min) to 180-210 min by 0.08 +/- 0.02 and 7 +/- 1 with NaHCO3 and decreased by 0.08 +/- 0.2 and 7 +/- 1 or 5 +/- 1 with NH4Cl or Arg-HCl (all P less than 0.005). Over this period blood TK (microM) differed between the NaHCO3 (+198 +/- 65) and both NH4Cl (-90 +/- 53) and Arg-HCl (-154 +/- 55) (P less than 0.05). These changes resulted from parallel alterations in TK production rate of appearance (Ra TK, mumol.kg-1.min-1), because changes from baseline in Ra 14C TK also differed between NaHCO3 (+1.9 +/- 0.8) and NH4Cl (-1.0 +/- 0.6) and Arg-HCl (-2.0 +/- 0.5) (P less than 0.05). Ra TK calculated with single- or dual-tracer techniques were similar. Blood free fatty acids (FFA) increased with NaHCO3, and FFA and glycerol decreased with NH4Cl and Arg-HCl, suggesting that FFA availability mediated the pH effects on hepatic ketogenesis. These results demonstrate that modest changes in systemic pH modify FFA availability and TK production rates.
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PMID:Systemic pH modifies ketone body production rates and lipolysis in humans. 197 88

Insulin was withdrawn from 7 patients with Type I (insulin-dependent) diabetes and 4 patients with insulin-dependent diabetes secondary to chronic pancreatitis, both groups without residual beta-cell function. Median plasma glucagon concentrations rose slightly, but significantly after withdrawal of insulin in Type I diabetic patients (from 14 (range: 11-16) to 19 (14-25) pmol/l by 6 h), but not in the patients with secondary diabetes. This was accompanied by a significantly higher increase in blood glucose concentration from 5.1 (4.9-5.7) to 15.2 (12.9-18.1) mmol/l by 6 h in Type I diabetic patients compared with patients with secondary diabetes (from 4.9 (4.3-6.7) to 13.1 (10.9-13.5) mmol/l) (p less than 0.01). Beta-hydroxybutyrate increased to a similar extent in the two groups, whereas no significant increases were found in glycerol and lactate in any of the groups. Increased secretion of glucagon is not essential for the development of hyperglycemia and ketonemia in patients with diabetes secondary to chronic pancreatitis, but may augment the degree of hyperglycemia in Type I diabetic patients compared with patients having secondary diabetes.
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PMID:The effect of insulin withdrawal on intermediary metabolism in patients with diabetes secondary to chronic pancreatitis. 202 8


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