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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Acute responses in hormone and substrate concentrations to intravenous administration of a fat emulsion were studied in metabolically normal subjects. Eight subjects were infused with either a fat emulsion or an aqueous solution of glycerol for 3 h. Serum triglycerides (TG), free fatty acids (FFA), glucose, glycerol, 3-hydroxybutyrate (3-OH butyrate), insulin, thyroid hormones, plasma
glucagon
, norepinephrine, and amino acids were measured. The infusion of a fat emulsion induced a 30% increase in glucose and a 22% decrease in alanine together with significant elevations of TG (> 10 mM) and FFA (> 1 mM). A small increase in insulin (4 microU/ml) and a reduction in
glucagon
(40 pg/ml) were observed. Eight-fold increases in glycerol occurred with both the fat emulsion and glycerol infusions. The administration of a fat emulsion resulted in a 4-fold increase in 3-OH butyrate, whereas glycerol infusion reduced its level by 50%.
Glycerol
infusion produced no measurable effects on the substrates other than glycerol or 3-OH butyrate. No significant changes were observed in thyroid hormones or norepinephrine after either solution was given. The data suggest that acute elevation of FFA by means of intravenous fat emulsions leads to preferential oxidation of FFA and stimulates hepatic ketogenesis with resulting glucose conservation as well as inhibition of alanine production without many alterations in hormonal concentrations.
...
PMID:Effects of intravenous infusion of a ten percent soybean emulsion on hormones, amino acids and other substrates in blood. 1682 61
To determine the response to alteration in site and form of carbohydrate delivery to the digestive tract, in vitro rates of lipogenesis and lipolysis in mesenteric (MESA), omental (OMA), and subcutaneous (SQA) adipose depots were compared. Forty crossbred beef steers (243 +/- 2 kg of BW) were fed 161 (LI) or 214 (HI) kcal of ME/(kg of BW(0.75) x d) or they were fed LI and infused for 35 d into the rumen (R) or abomasum (A) with starch hydrolysate (SH) or into the abomasum with glucose (G). Jugular blood samples were collected, steers were slaughtered, and adipose depots were sampled and prepared for assessment of lipogenesis and lipolysis in vitro. Blood concentrations of
glucagon
were increased (P = 0.04) in HI-H2O compared with LI-H2O steers, whereas A-SH tended to increase (P = 0.08) circulating IGF-I relative to R-SH, and A-G tended to have elevated (P = 0.09) T3 compared with A-SH. Lipolysis, as assessed by NEFA release, was unaffected by treatment.
Glycerol
release by the MESA and SQA was increased or tended to be increased (P < or = 0.08) in HI-H2O compared with LI-H2O steers. In A-G compared with A-SH steers, glycerol release from OMA increased (P = 0.008) and from SQA tended to be increased (P = 0.08). Acetate incorporation into total neutral lipids (TNL) increased or tended to increase with ME intake and SH infusion (P < or = 0.09) across all depots. Rates of acetate incorporation into fatty acids (FA) also increased or tended to be increased (P < or = 0.1) by SH infusion across all depots, but only that of SQA was increased with ME intake (HI-H2O vs. LI-H2O; P = 0.02). Rates of acetate incorporation into FA and TNL in MESA were increased (P < or = 0.03) by A-SH compared with R-SH, but site of SH infusion did not affect the rates in SQA or OMA. Glucose incorporation into TNL for MESA and SQA increased or tended to be increased (P < or = 0.1) by dietary and infused energy, whereas for OMA they tended to be increased (P = 0.1) only by SH infusion. In contrast, glucose incorporation into FA was unaffected by energy supply but tended to be increased (P = 0.07) by SH in MESA and tended to be greater (P = 0.08) for A-G than A-SH in OMA. The general across-depot pattern of acetate incorporation rate into FA and TNL was SQA > OMA > MESA, whereas, for glucose incorporation, rates across depots were equivalent. These data provide evidence that the postruminal supply of energy, specifically carbohydrate, stimulates lipogenesis from acetate and glucose and is more pronounced in abdominal depots relative to the subcutaneous depot.
...
PMID:Influence of abomasal carbohydrates on subcutaneous, omental, and mesenteric adipose lipogenic and lipolytic rates in growing beef steers. 1746 23
Adult female elephant seals (Mirounga angustirostris) combine long-term fasting with lactation and molting.
Glycerol
gluconeogenesis has been hypothesized as potentially meeting all of the glucose requirements of the seals during these fasts. To test this hypothesis, a primed constant infusion of [2-(14)C]glycerol was administered to 10 ten adult female elephant seals at 5 and 21-22 days postpartum and to 10 additional adult females immediately after the molt.
Glycerol
kinetics, rates of lipolysis, and the contribution of glycerol to glucose production were determined for each period. Plasma metabolite levels as well as insulin,
glucagon
, and cortisol were also measured.
Glycerol
rate of appearance was not significantly correlated with mass (P = 0.14, r2 = 0.33) but was significantly related to the percentage of glucose derived from glycerol (P < 0.01, r2 = 0.81) during late lactation. The contribution of glycerol to glucose production was <3% during each fasting period, suggesting a lower contribution to gluconeogenesis than is observed in other long-term fasting mammals. Because of a high rate of endogenous glucose production in fasting elephant seals, it is likely that glycerol gluconeogenesis still makes a substantial contribution to the substrate needs of glucose-dependent tissues. The lack of a relationship between glucoregulatory hormones and glycerol kinetics, glycerol gluconeogenesis, and metabolites supports the proposition that fasting elephant seals do not conform to the traditional insulin-
glucagon
model of substrate metabolism.
...
PMID:Lipolysis and glycerol gluconeogenesis in simultaneously fasting and lactating northern elephant seals. 1791 69
This study examined the effects of multiple subcutaneous
glucagon
injections with or without co-administration of oral glycerol on energy status-related blood metabolites and hormones of Holstein dairy cows in the first 2 wk postpartum. Twenty multiparous cows were fed a dry cow ration supplemented with 6 kg of cracked corn during the dry period to increase the likelihood of developing postpartal fatty liver syndrome. Cows with a body condition score of >or=3.5 points (1- to 5-point scale) were assigned randomly to 1 of 4 treatment groups: saline,
glucagon
, glycerol, or
glucagon
plus glycerol. Following treatment, serial blood samples were collected over an 8-h period to determine the effects of
glucagon
and glycerol on blood metabolites and hormones. Treatment effects were determined by comparing the concentrations of metabolites and hormones during the first 4-h period and the entire 8-h period after treatment administration (time 0) with the concentration of the same compounds at time 0 on d 1, 7, and 13 postpartum. Administration of
glucagon
alone increased concentrations of plasma
glucagon
and insulin on d 1, 7, and 13 and increased plasma glucose and decreased plasma nonesterified fatty acids (NEFA) on d 7 and 13 postpartum relative to the saline group. Administration of glycerol alone increased plasma glucose on d 7 and plasma triacylglycerols on d 1 postpartum.
Glycerol
administration also decreased plasma
glucagon
and NEFA on d 1, 7, and 13 and plasma beta-hydroxybutyrate (BHBA) on d 1 postpartum relative to the saline group. Administration of
glucagon
plus glycerol increased and sustained concentrations of plasma
glucagon
, glucose, and insulin on d 1, 7, and 13 and decreased plasma NEFA on d 1, 7, and 13 and BHBA on d 1 and 7. Early postpartal treatment of dairy cows with
glucagon
plus glycerol increased plasma glucose and insulin, decreased plasma NEFA and BHBA, and increased secretion of liver NEFA as plasma triacylglycerols. This suggests that
glucagon
and glycerol, when co-administered, act to decrease the likelihood of metabolism-related syndrome development in dairy cows.
...
PMID:Acute metabolic responses of postpartal dairy cows to subcutaneous glucagon injections, oral glycerol, or both. 1876 90
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