UNIPROT:P01275 - FACTA Search

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

Plasma immunoreactive glucagon (IRG) concentrations were measured in 36 patients with chronic renal failure (CRF) and 32 normal subjects. In addition, the components of circulating IRG were analyzed by gel filtration in the fasting state and after physiological stimuli. Fasting IRG was elevated (P less than 0.001) in CRF patients (534 +/- 32 pg/ml) compared with the levels found in healthy subjects (113 +/- 9 pg/ml). Oral glucose suppressed plasma IRG in CRF patients from a basal level of 568 +/- 52 to a nadir of 354 +/- 57 pg/ml (120 min). This degree of suppression (38%) was comparable to that found in normal subjects (basal = 154 +/- 20 to 100 +/- 23 pg/ml) at 120 min (35%). Intravenous infusion of arginine (250 mg/kg) resulted in a 71% rise in IRG in CRF patients and a 166% increase in normal subjects. Gel filtration of fasting plasma from CRF patients showed three major peaks. The earliest (A) was found in the void volume (mol wt greater than 40,000) and constituted 16.5 +/- 4.7% of the elution profile. The middle peak (B) eluted just beyond the proinsulin marker (approximately 9,000 mol wt) and constituted the largest proportion of the elution profile (56.5 +/- 3.4%). The third peak (C) coincided with the standard glucagon and [125I]glucagon markers (3,485 mol wt) and comprised 27.0 +/- 4% of the IRG profile. In contrast, only peaks A and C were found in fasting plasma of normal subjects (53.6 +/- 10.4% in A and 46.4 +/- 10.4 in C). After oral glucose, glucagon immunoreactivity in the 3,500 mol wt peak (C) was markedly suppressed, while the B peak in patients with CRF declined to a lesser extent. The A peak in both groups was unchanged. After an arginine infusion only the C peak increased in both groups of subjects. Gel filtration of plasma in 3 M acetic acid gave similar profiles to those obtained in glycine albumin buffer. Exposure of serum to trypsin indicated that the B and C peaks were digestible, while the A peak was resistant to the action of the enzyme. In one sample, peak C increased after a 2-h exposure of serum to trypsin. We conclude that circulating IRG in normal subjects and patients with CRF is heterogenous. The hyperglucagonemia of renal failure is largely due to an increase in IRG material of approximately 9,000 mol wt, consistent with proglucagon, although the 3,500 mol wt component is also considerably elevated (threefold). The significance of circulating IRG levels should be interpreted with caution until the relative biological activity of the three components is established.
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PMID:Heterogeneity of plasma glucagon. Circulating components in normal subjects and patients with chronic renal failure. 95 99

The pathogenesis of hyperglucagonemia and of the alterations in the pattern of circulating immunoreactive glucagon (IRG) associated with renal insufficiency was studied in rats in which a comparable degree of uremia was induced by three different methods, i.e., bilateral nephrectomy, bilateral ureteral ligation, and urine autoinfusion. Nephrectomized and ureteral-ligated rats were markedly hyperglucagonemic (575 +/- 95 pg/ml and 492 +/- 54 pg/ml, respectively), while IRG levels of urine autoinfused animals (208 +/- 35 pg/ml) were similar to those of control rats (180 +/- 26 pg/ml), indicating that uremia per se does not account for the hyperglucagonemia observed in renal failure. Similarly, plasma IRG composition in this group of animals was indistinguishable from that of controls, in which 88.2 +/- 5.9% of total IRG consisted of the 3,500-mol wt fraction. The same component was almost entirely responsible (82.6 +/- 4.1%) for the hyperglucagonemia observed in ligated rats, while it accounted for only 57.6 +/- 5.0% of the circulating IRG in nephrectomized animals. In the latter group, 36.8 +/- 6.6% of total IRG had a mol wt of approximately 9,000, consistent with a glucagon precursor. This peak was present in samples obtained as early as 2 h after renal ablation and its concentration continued to increase with time reaching maximal levels at 24 h. These results confirm that the kidney is a major site of glucagon metabolism and provide evidence that the renal handling of the various circulating IRG components may involve different mechanisms. Thus, the metabolism of the 3,500-mol wt fraction is dependent upon glomerular filtration, while the uptake of the 9,000-mol wt material can proceed in its absence, as long as renal tissue remains adequately perfused. This finding suggests that the 9,000-mol wt component may be handled by peritubular uptake.
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PMID:Pathogenesis and characterization of hyperglucagonemia in the uremic rat. 99 45

Glucagon in small intravenous (i.v.) doses markedly increases glomerular filtration rate (GFR) in normal anesthetized dogs. In this study, the effects of glucagon 5 mug/min (i.v.) on renal hemodynamics was tested in four canine models of acute pre-renal failure (hemorrhage, barbiturate overdose; renal arterial clamping and renal arterial infusions of noradrenaline) and in a model of unilateral acute tubular necrosis at 4 h and 6-7 days following completion of the ischemic insult. Following hemorrhage and barbiturate excess, with arterial blood pressure maintained at 65-70 mm Hg, whole-kidney GFR and clearance rate of p-aminohippurate decreased by 50-70%. During this reduction of perfusion pressure, the subsequent infusion of glucagon increased GFR by 90-130%. In models where arterial pressure was normal during the period of ischemia (clamping and noradrenaline infusion), not only did glucagon significantly increase renal perfusion, but the ischemic kidney proved to be far more sensitive to the hemodynamic effects of glucagon (delta GFR - 120-160%) than the contralateral control (deltaGFR = 30-40%). In three dogs completely anuric following renal arterial clamping, glucagon was able to improve blood flow and restart urine formation. Glucagon, but not dopamine, was able to simulate the beneficial effects of hypertonic mannitol on renal function in dogs with hemorrhagic hypotension. Glucagon was without effect in established acute tubular necrosis. This study, therefore, indicates that, during renal ischemia, glucagon may be quite effective in preserving urine output and perfusion of the kidneys.
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PMID:The effect of glucagon on glomerular filtration rate in dogs during reduction of renal blood flow. 117 90

Gastrin is released by food rich in proteins and by vagal mechanisms. HCI and possibly secretin and glucagon inhibit gastrin release. In the wide range of actions of gastrin, stimulation of gastric acid secretion is the most important. With the advent of radioimmunochemical methods for the determination of gastrinaemia, it has been shown that gastrin exists in a number of forms of different molecular weight. To estimate the validity of gastrin radioimmunoassay it is necessary to demonstrate that decrease in antibody-bound labelled antigen is unrelated to non-specific interference by unknown substances present in serum samples, and that the antiserum reacts with endogenous hormone in an identical manner. Heterogeneity of gastrin in serum may affect the validity of the radioimmunoassay. Hypergastrinaemia associated with hyper-normochlorhydria occures in gastrinoma, hyperplasia of antral gastrin cells, diseases with delayed gastric emptying, retained antrum, short bowel syndrome,renal failure. Hypergastrinaemia associated with hypo-achlorhydria occurs in atrophic gastritis without extensive antral lesion and after vagotomy. Gastrin radioimmunoassay can be used for the mass screening of subjects with atrophic gastritis, a high risk group for gastric cancer.
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PMID:[Gastrin]. 123 74

Chronic uremia is frequently associated with an impaired carbohydrate tolerance. During the past decade considerable progress have been made in characterizing and quantifying this biochemical abnormality in end-stage renal failure (ESRF). Primarily, this has been possible by means of the glucose clamp technique which basically makes it possible to evaluate insulin sensitivity and glucose-stimulated insulin secretion. Combined with the use of tracer dilution technique, hepatic vein catheterization technique, infusion of somatostatin, forearm or leg techniques and indirect calorimetry, insight into several other major parameters of glucose kinetics has been achieved; i.e. insulin-mediated glucose uptake (IMGU), glucose-induced glucose uptake (GIGU), hepatic glucose production (HGP) splanchnic glucose uptake and oxidative and nonoxidative glucose disposal. Of course, these extra facets make the clamp procedure less feasible to accomplish for technical reasons and demand an extensive knowledge of the limitations of these methods. One major factor behind the reduced glucose tolerance in uremia is an impaired sensitivity to insulin (insulin resistance) in peripheral tissues, mainly in skeletal muscle. In non-dialysed uremic patients the insulin dose-response curve is characterized by a decreased maximal response and by a rightward shift. In general, the insulin resistance is pronounced, but a few weeks on maintenance hemodialysis (HD) or continuous ambulatory peritoneal dialysis (CAPD) are enough to improve insulin action significantly. Occasionally, IMGU has been found normal in patients on long-term HD. In contrast to insulin-stimulated glucose uptake, basal glucose turnover is normal in patients with ESRF. The ability of glucose to enhance its own uptake is difficult to measure in human studies, because even small amounts of insulin is able to modulate GIGU profoundly. At basal insulinemia, however, GIGU is markedly impaired in uremia. Recently, it has been suggested that the uremic insulin resistance is located not only in peripheral tissues but also in the liver. At low insulin concentrations, the restraining potency of insulin on HGP seems to be decreased in uremia. Splanchnic glucose uptake is hardly affected, but is always very insensitive to insulin. The glucoregulatory function of the liver is further disturbed in uremia. Acute glucagon exposure elicits an inadequate glucose release, suggesting a coexisting resistance to glucagon. In vitro studies have shown, that the first step in the cascade of reactions initiated by insulin, namely binding to its specific receptor is normal in uremia. In addition, the activity of key enzymes such as the insulin receptor kinase and glycogen synthase have been found within normal in the uremic muscle.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Glucose metabolism in non-diabetic and insulin-dependent diabetic subjects with end-stage renal failure. 202 51

The effect of metabolic acidosis (MA) on amino acid and keto acid metabolism was studied in fourteen patients with chronic renal failure (CRF) under the low protein diet (0.6-0.8 g/kgBW). The comparative study of five patients with renal tubular acidosis was carried out. Each patient was investigated before [MA(+)period] and after correction with sodium bicarbonate administration lasting 10 days [MA(-)period]. The correction of MA improved nitrogen balance and elevated plasma branched-chain amino acids (BCAA), keto acids (BCKA), glutamine and alanine concentrations. No effect was however, observed in change of plasma insulin and glucagon. Oral administration of the keto-analogues of BCKA [0.1 g/kgBW of alpha-ketoisovalerates (KIV) and alpha-keto-isocaproic acid (KIC)] is made for the purpose of investigating the change in the metabolic conversion rate to amino acids. As a result, MA (+) suppressed an increase in plasma KIV and KIC concentrations. Moreover, an increase in plasma valine and leucine concentrations were suppressed by MA (+). These results suggested that MA stimulates BCKA oxidation and suppresses the protein sparing effect of leucine and KIC, and accelerates the catabolism in CRF under the low protein diet. The correction of MA is ineffective in severe renal failure (serum creatinine above 10.0 mg/dl), because the other uremic factors appear to be affecting protein and amino acid metabolism. Therefore, it might be concluded that MA should be corrected at an earlier stage of CRF.
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PMID:[The effect of metabolic acidosis on amino acid and keto acid metabolism in chronic renal failure]. 205 49

Serum GH levels were measured by RIA and RRA in 133 subjects (19 healthy controls and 114 patients with various growth disturbances, aged 2.3-24.8 yr). Serum samples obtained from 147 stimulation tests representing a total of 1065 samples were analyzed by both methods, and the results compared. The data are expressed in absolute values and in RRA/RIA ratios. The area under the curve after a stimulation test (area GH) was calculated by planimetry. RIA was performed by the classical double antibody method using a polyclonal anti-serum. For the RRA, human cultured lymphocytes (IM-9 cells) were used, and 125I-labeled human GH was purified by high performance liquid chromatography. The same human GH standard was used in both assay systems. In control subjects a significant (P less than 0.0001) positive correlation was found at all ages between GH levels measured by RIA and RRA (r = 0.69 after insulin and r = 0.77 after glucagon). The RRA/RIA ratio (mean +/- SEM) for the peak GH level was 0.88 +/- 0.05, and the area under the GH curve was 0.85 +/- 0.05. The peak mean RRA/RIA ratios were significantly lower (P less than 0.05 and P = 0.03, respectively). No relationship was found with the absolute value of either peak or area GH. In patients with growth delay and Turner's syndrome, lower GH levels were found than in control subjects in both assay systems. The RRA/RIA ratios were also lower. In the other patients with some growth disorder, normal GH levels and ratios were found. In patients with renal failure, high levels of RIA-GH and RRA-GH were found, with a normal RRA/RIA ratio. In patients with documented pituitary GH deficiency, GH-releasing factor administration resulted in an increase in GH levels that was identical in both assays. The RRA/RIA ratio remained constant throughout the test. No correlation was found between the ratio and the absolute value of either RIA-GH or RRA-GH regardless of the stimulation test used. It is concluded that the presence of an abnormal GH molecule is extremely rare in patients with short stature. Thus, the presence of a bioinactive hormone is not a common cause of growth failure. During provocative testing some changes in the ratio may occur that do not appear after GH-releasing factor, further illustrating the different mechanisms involved in GH secretion.
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PMID:Serum growth hormone levels measured by radioimmunoassay and radioreceptor assay: a useful diagnostic tool in children with growth disorders? 218 59

Acute intravenous amino acid infusion or a high-protein diet increases renal plasma flow and the glomerular filtration rate in healthy subjects. Conversely, a low-protein diet reduces renal plasma flow and glomerular filtration rate. The aim of this study was to investigate the effect of intravenous amino acid infusion and dietary proteins on kidney function in cirrhosis. Protocol 1: renal plasma flow and glomerular filtration rate were measured before and during intravenous administration of a 10% amino acid solution (0.043 ml/kg/min) to eight compensated cirrhotic patients (group 1), nine nonazotemic cirrhotic patients with ascites (group 2) and seven cirrhotic patients with ascites and functional renal failure (group 3). Amino acid administration induced a significant increase in renal plasma flow and glomerular filtration rate in all groups studied. Renal plasma flow and glomerular filtration rate increased by 16% and 14%, respectively, in group 1; 31% and 22% in group 2 and 25% and 21% in group 3. Protocol 2: Renal plasma flow and glomerular filtration rate were measured in nine cirrhotic patients with ascites after 11 days on a low-protein diet (0.5 gm/kg body weight/day) and also after the patients followed for 11 days a moderately high-protein diet (1.5 gm/kg body weight/day). The moderately high-protein diet was associated with a significant increase in renal plasma flow (12%) and glomerular filtration rate (13%) compared with values obtained while the patients followed the low-protein diet. Plasma glucagon levels increased markedly during the intravenous administration of amino acid and the intake of the moderately high-protein diet.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of intravenous amino acid infusion and dietary proteins on kidney function in cirrhosis. 231 51

Glucose tolerance and tissue sensitivity to insulin were examined in 19 renal failure patients on chronic regular hemodialysis (group U) and in 6 matched control subjects with normal renal function (group A). Based on glucose tolerance as assessed by an oral glucose tolerance test (OGTT), glucose tolerance was normal in 5 (group U:N), borderline in 5 (group U:BL) and decreased in 9 uremic subjects (group U:D). Compared with group A the uremics demonstrated significantly (p less than 0.01) impaired insulin sensitivity as assessed by a continuous mixed infusion of somatostatin, insulin and glucose (SIGIT). In addition 19 non-diabetic subjects with normal fasting blood glucose and normal renal function, matching the uremic patients with respect to glucose tolerance as assessed by OGTT, were studied (group B). In group B impairments in both insulin secretion and insulin sensitivity tended to be more pronounced in subjects with decreased OGTT as compared with those with borderline OGTT. In contrast, insulin resistance was present to a similar degree in uremic subjects of group U:N, U:BL and U:D. During SIGIT endogenous insulin, glucagon and growth hormone (GH) were suppressed in both uremic and control subjects. This implies that insulin resistance in uremia is most likely not due to hyperglucagonemia or abnormal GH metabolism. During OGTT subjects of group U:N had significantly higher insulin response than subjects of group U:BL (p less than 0.02) and group U:D (p less than 0.01). Insulinogenic index was significantly higher in group U:N than in group U:BL (p less than 0.02) and group U:D (p = 0.01) and was higher in group U:BL than in group U:D (p less than 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose intolerance in uremic patients: the relative contributions of impaired beta-cell function and insulin resistance. 256 75

SMS 201-995 (Sandoz Pharmaceuticals, East Hanover, NJ) is a synthetic peptide analog of native somatostatin that has been used to relieve symptoms caused by neuroendocrine tumors. Reports have described an insulin suppressive effect of SMS 201-995 that results in elevations of blood glucose. We report a patient with a metastatic small bowel carcinoid and renal failure in whom mild symptomatic hypoglycemia occurred 30 to 60 minutes after SMS 201-995 administration. No increase in insulin or decreases in glucagon, cortisol, or catecholamines were observed during these hypoglycemic episodes. Elevated levels of growth hormone fell gradually following SMS 201-995 administration and did not temporally correspond to the 30- to 60-minute nadir of blood glucose. However, SMS 201-995 levels peaked during this 30- to 60-minute period. As clinical experience with this drug broadens, patients whose glucose control is dependent on counter-regulatory hormones should be monitored for the possibility of hypoglycemia.
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PMID:Hypoglycemia after administration of somatostatin analog (SMS 201-995) in metastatic carcinoid. 260 30

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