Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To assess the role of adrenergic mechanisms during prolonged hypoglycemia, eight normal subjects were studied on six occasions. In study 1, insulin was infused subcutaneously (15 mU.m-2.min-1 for 12 h), and plasma glucose concentration (PG) decreased from 89 +/- 2 to 50 +/- 1 mg/dl. In study 2 (insulin as in study 1 + propranolol and phentolamine + variable glucose to maintain PG as in study 1), the rate of hepatic glucose production (HGO, [3-3H]glucose) was approximately 30% lower after 1.5 h, and the rate of peripheral glucose utilization (GU) was approximately 15% greater after 5 h. To quantitate the effects of adrenergic mechanisms on glucose counterregulation, in a control study (study 3), glucoregulatory hormone secretion was blocked, and the hormones were reinfused to reproduce study 1. When alpha- and beta-blockade plus variable glucose were superimposed to study 3 (study 4), HGO was approximately 25% lower (after 2 h), and GU was approximately 10% greater (after 6 h) vs. study 3. When glucose was not infused to match PG of study 3 (study 5), severe hypoglycemia developed (PG at 7 h 36 +/- 2 vs. 62 +/- 3 mg/dl). Finally, when glucose was not infused during alpha- and beta-blockade of study 2 (study 6), PG was 49 +/- 3 mg/dl at 7 h vs. 65 +/- 3 mg/dl of the control study (study 1), despite greater secretion of glucagon, growth hormone, and cortisol. It is concluded that adrenergic mechanisms play a key counterregulatory role, even in the presence of appropriate responses of glucagon and that greater increases in glucagon (and other counterregulatory hormones) cannot compensate fully for absent contribution of adrenergic mechanisms to counterregulation.
 ...
PMID:Contribution of adrenergic mechanisms to glucose counterregulation in humans. 176 33

Elevated rates of basal hepatic glucose output (bHGO) are significantly correlated with the fasting serum glucose (FSG) level in subjects with non-insulin-dependent diabetes mellitus (NIDDM). This observation suggests that bHGO is a major determinant of the severity of the diabetic state in these subjects. In addition, basal glucagon levels (bGL) are higher in these diabetics than in control subjects, despite the concurrent basal hyperglycemia and hyperinsulinemia, two factors known to suppress glucagon secretion. Although bGL is responsible for sustaining two-thirds of bHGO in normal humans, its role in sustaining elevated rates of bHGO in NIDDM has not been previously defined. To this end, we have studied 13 normal and 10 NIDDM subjects; mean FSG levels were 90 +/- 2 and 262 +/- 21 mg/dl, respectively (P less than .001). The mean fasting serum insulin and glucagon levels were higher in the diabetics than in the controls: 17 +/- 2 vs. 9 +/- 1 microU/ml (P less than .01) and 208 +/- 37 vs. 104 +/- 15 pg/ml (P less than .01), respectively. On separate days, HGO was assessed isotopically (with 3-[3H]glucose) in the basal state and during infusion of somatostatin (SRIF) (600 micrograms/h) alone and in conjunction with replacement infusions of glucose and insulin. The results demonstrate that bHGO is higher in diabetics than in controls (145 +/- 12 vs. 89 +/- 3 mg X m-2 X min-1, P less than .01); during infusion of SRIF alone, HGO was suppressed by 25% (P less than .05) and 34% (P less than .05) of the basal value in controls and diabetics, respectively; when the studies were repeated with glucose levels held constant at or near the FSG level by the glucose-clamp technique, the pattern and degree of HGO suppression was similar to that obtained by infusion of SRIF alone; during isolated glucagon deficiency (SRIF + insulin, 5 mU X m-2 min-1, with serum glucose maintained at basal level), HGO was suppressed by 71 +/- 8% of the basal value in controls (P less than .001) and by 58 +/- 7% in diabetics (P less than .001); and when isolated glucagon deficiency with similar hyperglycemia was created in control subjects, HGO was suppressed by 87% of the basal value.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Role of hyperglucagonemia in maintenance of increased rates of hepatic glucose output in type II diabetics. 287 57

This study compares the dynamics and sensitivity of hepatic and peripheral insulin action in conscious dogs. Glucose turnover was measured simultaneously by HOT GINF tracer methodology and by hepatic AV differences. SRIF was infused during euglycemic clamps to suppress endogenous insulin and glucagon secretion. Basal plasma glucagon levels were recreated by intraportal replacement (2 ng.min-1 x kg-1), and insulin was infused intraportally at 0, 3, 6, 10, or 20 pmol.min-1 x kg-1 for 3 h. Steady-state HGO and NHGO were suppressed by insulin with EC50s of 164 and 95 pM, respectively. As expected, these were lower than the EC50 for Rd stimulation (516 pM), demonstrating greater hepatic than peripheral insulin sensitivity. In contrast to sensitivity, dynamics for suppression of HGO and NHGO and for stimulation of Rd by insulin were indistinguishable: half-times averaged 43 +/- 5, 42 +/- 9, and 45 +/- 5 min, respectively (P > 0.77). For all three variables, the half-time of insulin effect was independent of insulin dose (P > 0.26). The striking similarity of the time courses for suppression of glucose production and stimulation of glucose uptake suggests that both effects are secondary manifestations of a single, rate-limiting phenomenon. We hypothesize this single gateway to insulin action is transendothelial insulin transport, which we previously have shown to be rate limiting for insulin's effect on glucose uptake in vivo.
 ...
PMID:Dynamics of hepatic and peripheral insulin effects suggest common rate-limiting step in vivo. 809 79

To determine the effect of nonesterified fatty acids (NEFA) on glucagon action, glucagon was infused intraportally (1.65 ng.min(-1).kg(-1)) for 3 h into 18-h-fasted, pancreatic-clamped conscious dogs in the presence [NEFA + glucagon (GGN)] or absence (GGN) of peripheral Intralipid plus heparin infusion. Additionally, hyperglycemic (HG), hyperglycemic-hyperlipidemic (NEFA + HG), and glycerol plus glucagon (GLYC + GGN) controls were studied. Arterial plasma glucagon concentrations rose equally in GGN, NEFA + GGN, and GLYC + GGN but remained basal in hyperglycemic controls. Peripheral infusions of Intralipid and heparin increased arterial plasma NEFA concentrations equally in NEFA + GGN and NEFA + HG and did not change in other protocols. After 15 min, glucagon infusion resulted in a rapid, brief increase in net hepatic glycogenolysis (NHGLY, mg.min(-1).kg(-1)) of approximately 6.0 in GGN and GLYC + GGN but only increased by 3.8 +/- 1.3 in NEFA + GGN. Thus increases in NHGLY, and consequently net hepatic glucose output (NHGO), were blunted by 40%, with no difference between the groups in the last 2.5 h of the study. NHGO and NHGLY did not significantly change in HG and NEFA + HG. Net hepatic gluconeogenic flux did not change in GGN, GLYC + GGN, or HG. However, Intralipid and heparin infusion resulted in similar increases in net hepatic gluconeogenic flux in NEFA + GGN and NEFA + HG. Thus elevated NEFA limit the initial increase in glucagon-stimulated HGO by blunting glycogenolysis, without having any effect on the gluconeogenic or glycogenolytic contributions or NHGO thereafter.
 ...
PMID:The effect of an acute elevation of NEFA concentrations on glucagon-stimulated hepatic glucose output. 1660 86