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
Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The intraperitoneal injection of
glucagon
or the intravenous infusion of oleic acid provoked a rapid change in the properties of rat liver mitochondrial ATPase. When mitochondria of treated animals were isolated an increase in ATPase activity was observed as well as a modification on the response to activators and inhibitors and to the sulfhydryl reagent N-ethylmaleimide. Sensitivity to the activators dinitrophenol or bicarbonate decreased, whereas the sensitivity to inhibitors KOCN and KSCN increased, and an inhibitory effect of N-ethylmaleimide appeared. These effects gradually disappeared when mitochondrial suspensions were kept at 10 degrees C, and after approximately 5 h ATPase from mitochondria of treated and control animals behaved almost identically. If the oxidizing agent dichlorophenolindophenol was added to the isolated mitochondria the effects induced by
glucagon
or fatty acids immediately disappeared. The activation caused by the reducing agent dithionite on ATPase activity in mitochondria from control animals did not take place in fresh mitochondria from treated animals; however, dithionite was effective in these latter mitochondria when tested 5 h later after keeping them at 10 degrees C. The intravenous infusion of oleic acid produced a rise in the [NADH]/[
NAD+
] and [Total flavin]/[FAD] ratios in mitochondria, and values double as those in the controls were observed; these values gradually approached those of the control mitochondria when kept at 10 degrees C; after 24 h these ratios were the same in mitochondrial suspensions from treated and nontreated animals. These results suggest that the modification of the properties of mitochondrial ATPase induced by
glucagon
or fatty acids might be mediated by a change in the mitochondrial redox state.
...
PMID:Effect of injected glucagon or fatty acids on mitochondrial ATPase. 632 87
The effects of
glucagon
on the respiratory function of mitochondria in situ were investigated in isolated perfused rat liver.
Glucagon
at the concentrations higher than 20 pM and cyclic AMP (75 microM) stimulated hepatic respiration, and shifted the redox state of pyridine nucleotide (NADH/
NAD
) in mitochondria in situ to a more reduced state as judged by organ fluorometry and beta-hydroxybutyrate/acetoacetate ratio. The organ spectrophotometric study revealed that
glucagon
and cyclic AMP induced the reduction of redox states of cytochromes a(a3), b and c+c1. Atractyloside (4 micrograms/ml) abolished the effects of
glucagon
on these parameters and gluconeogenesis from lactate. These observations suggest that
glucagon
increases the availability of substrates for mitochondrial respiration, and this alteration in mitochondrial function is crucial in enhancing gluconeogenesis.
...
PMID:Effects of glucagon on the redox states of cytochromes in mitochondria in situ in perfused rat liver. 632 76
Treatment of MDCK cells with
glucagon
results in decreases in
glucagon
, NaF and prostaglandin E1-stimulated adenylyl cyclase activities, indicating the occurrence of a heterologous desensitization process. The extent of desensitization was time and
glucagon
concentration dependent. Maximal desensitization (30-50% decrease in stimulation by various effectors) was obtained by 4 h at 100 nM
glucagon
.
Glucagon
also induced homologous desensitization since after treatment, the Kact of
glucagon
was specifically increased. Treatment of cells with 10 microM 8-bromoadenosine 3':5'-monophosphate or 10 microM forskolin resulted in decreased hormonal (
glucagon
and prostaglandin E1) stimulation without any decrease in the stimulation by nonhormonal effectors (NaF, forskolin, and guanyl-5'-yl imidodiphosphate). The stimulatory regulator (Ns) of the adenylyl cyclase system was analyzed after desensitization with
glucagon
and no measurable changes in the apparent levels of the alpha s subunits of Ns or the activity of Ns as assessed by reconstitution of the cyc- S49 cell membrane adenylyl cyclase were detected. Levels of the alpha i subunit of the inhibitory regulator (Ni) were monitored by labeling with [32P]
NAD
and pertussis toxin. Membranes of
glucagon
-treated cells showed a 2-fold increase in the amount of alpha i labeled. Addition of pure Ns to
glucagon
-treated MDCK cell membranes restored full stimulation by NaF but did not restore stimulation by prostaglandin E1 or
glucagon
. It is concluded that
glucagon
induces heterologous and homologous desensitization of the MDCK cell adenylyl cyclase. The locus of the heterologous desensitization is at the level of the regulatory components. Decreased stimulation is thought to occur due to either an increase in the levels of Ni or due to altered interactions between the subunits of Ni.
...
PMID:Glucagon-induced heterologous desensitization of the MDCK cell adenylyl cyclase. Increases in the apparent levels of the inhibitory regulator (Ni). 653 77
Menadione and NH4Cl were reported to lower the islet content of reduced pyridine nucleotides. They were used to investigate the possible significance of
NAD
(P)H in the regulation of
glucagon
release by glucose and arginine. Menadione (10-25 mumol/l) enhanced arginine-stimulated
glucagon
release at a low glucose concentration (3.3 mmol/l), but failed both to affect
glucagon
secretion in the sole presence of glucose (3.3 mmol/l) and to suppress the inhibitory action of glucose 11.1 mmol/l upon
glucagon
output. In contrast to menadione, NH4Cl inhibited arginine-stimulated
glucagon
release at the low glucose concentration. The inhibitory action of glucose in high concentration upon
glucagon
release was not suppressed by NH4Cl. These findings do not permit to extrapolate to the A2-cell the concept that reduced pyridine nucleotides represent a major coupling factor in the nutritional regulation of hormonal release.
...
PMID:Evidence for a limited role of NAD(P)H in the nutritional regulation of glucagon release: studies with menadione and NH4Cl. 699 42
1. Regulation of the reduction of ferricyanide by the isolated perfused rat liver was studied. 2. The rate of reduction was dependent on the rate of supply of ferricyanide and independent of perfusate oxygen concentration. 3. The effect of pH was also examined; the rate of reduction was optimal at pH 7.4 and was inhibited to a greater extent by pH values below 7.4 than those above 7.4. 4. The effects of substrates on the rate of ferricyanide reduction was assessed. Reductants of the cytosolic and mitochondrial NADH/
NAD
(+) couple were tested. 2-Hydroxybutyrate (10mm), lactate (10mm), glycerol (10mm) and ethanol (10mm) each had no effect. Dihydroxyacetone (10mm) stimulated the rate. 5. Dehydroascorbate (1mm), stimulated the rate of ferricyanide reduction; the stimulation did not appear to be attributable to the production of reduced substances that were excreted to reduce extracellular ferricyanide. 6. The effects of
glucagon
and cyclic AMP on the rate of ferricyanide reduction were examined.
Glucagon
inhibited the rate by approx. 30% and half-maximal inhibition occurred at 0.1 nm, corresponding to the concentration at which half-maximal stimulation of glucose release occurred. Cyclic AMP stimulated glucose release but had no significant effect on the rate of ferricyanide reduction. It is concluded that the trans-plasma membrane redox system of liver that reduces extracellular ferricyanide is regulated by
glucagon
. The rate is also altered by the substrate dihydroxyacetone. The effect of
glucagon
may be direct as it cannot be mimicked by cyclic AMP and it occurs directly following exposure to the hormone.
...
PMID:Properties and regulation of a trans-plasma membrane redox system in rat liver. 712 68
Intestinal ischemia shock is obtained in fasted rats by 40-minute splanchnic arterial occlusion (SAO) or by 35-minute portal vein occlusion (PVO). Survival is prolonged by plasma treatment; further prolongation is obtained by additional administration of glucose. After SAO early hyperglycemia is marked. Plasma adrenaline rises steeply after opening of the arteries and remains high, while plasma insulin remains unaltered. The hyperglycemia is abolished by adrenalectomy and section of the major splanchnic nerves (MSN) proximal to the adrenals but not by section of the MSN distal from the adrenals or by vagotomy. It is concluded that the sympathetic nervous system is stimulated by a substance, possibly related to VIP, released from the intestines. After PVO hyperglycemia is less marked. Plasma adrenaline as well as insulin are increased. During late and fatal hypoglycemia after PVO plus plasma treatment, the liver still appears to be functionally intact. It is assumed that gluconeogenesis is reversibly inhibited by as yet unknown factors. The hypoglycemia cannot be abolished by injection of common substrates of gluconeogenesis but the combination fructose plus
glucagon
plus
NAD
is highly effective.
...
PMID:Disturbances in the glucose metabolism in intestinal ischemia shock. 724 66
Oxidative decarboxylation is the first irreversible step in the degradation of leucine. The effect of streptozotocin diabetes on this reaction was studied in cell-free rat liver preparations, using [1-14C]alpha-ketoisocaproate as substrate. Diabetes increased the branched-chain ketoacid dehydrogenase (BCKD) activity (per g liver or per mg protein) of homogenates, but the ratios of homogenate BCKD activity to other mitochondrial markers remained unchanged. A cytosolic branched-chain ketoacid decarboxylase activity (15-22% of homogenate activity), which did not require
NAD
, CoA, or NADP, was also increased in diabetics. Insulin treatment of diabetics normalized enzyme activity in all fractions. The apparent Km of BCKD in homogenates was 43-45 microM; diabetes increased the apparent Vmax from 165 nmol x min-1 x g tissue-1 to 260 nmol x min-1 x g-1. In contrast, the Km for cytosolic alpha-ketoisocaproate decarboxylation was 270 microM in controls, and diabetes resulted in both a lower Km (210 microM) and a higher Vmax. Adrenalectomy did not affect activity in homogenates from controls, but partially reversed the diabetes-associated increase.
Glucagon
pretreatment of controls did not affect activity. In summary, distinct mitochondrial and cytosolic enzymes decarboxylate alpha-ketoisocaproate in liver. The increased hepatic capacity of diabetic rats to degrade the carbon skeleton of leucine is attributed mainly to a relative increase in mitochondrial mass.
...
PMID:Effects of diabetes on oxidative decarboxylation of branched-chain keto acids. 743 56
NADPH-diaphorase activity, which has been previously reported to be associated with the enzyme nitric oxide synthase (NOS), was localized cytochemically in the pancreatic islets of normal rats. All islet cells types, i.e. insulin-,
glucagon
-, somatostatin- and pancreatic polypeptide-immunoreactive cells, expressed
NAD
-PH-diaphorase histochemical activity, whereas the exocrine tissue was almost negative. In streptozotocin-treated rats, only the surviving non-beta cells in the islet periphery were stained. Isolated beta and non-beta cells also expressed intense NADPH-diaphorase activity. By electron microscopy, the enzyme was localized primarily on membranes of the endoplasmic reticulum and nuclear envelope, as previously reported for neurons. In addition the enzyme activity was found in the cis-region of the Golgi complex. These results suggest that the four types of endocrine cells of the islets of Langerhans may contain the NOS-enzyme and thus constitutively produce nitric oxide.
...
PMID:Cytochemical localization of NADPH-diaphorase in the four types of pancreatic islet cell. 752 33
It was the aim of the present study to determine in rat parietal cells whether Gs alpha, the stimulatory subunit of adenylate cyclase, mediates adenosine 3',5'-cyclic monophosphate (cAMP)-dependent parietal cell function in response to histamine and
glucagon-like peptide 1
(
GLP-1
)-(7-36) amide. Cytoplasmic membrane from enriched (83 +/- 5%) rat parietal cells were incubated for 30 min with 30 microCi/ml [32P]
NAD+
and 40 micrograms/ml preactivated cholera toxin (CT), a pharmacological tool for activation of Gs alpha. Subsequent sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and autoradiography revealed [32P]ADP ribosylation of Gs alpha represented by three proteins with molecular masses ranging from 42 to 45 kDa. In intact parietal cells, CT (10(-12)-10(-8) M) caused marked stimulation of [14C]aminopyrine accumulation and cAMP production confirming the functional importance of Gs alpha in regulation of H+ production. Identical membrane preparations were preincubated (2 h, 4 degrees C) in parallel with and without RM/1, a rabbit polyclonal anti-Gs alpha-antibody. Subsequently, adenylate cyclase was stimulated by histamine,
GLP-1
-(7-36) amide, CT, or forskolin. At a 1:10 dilution, the antiserum completely abolished adenylate cyclase activity in response to maximal concentrations of histamine,
GLP-1
-(7-36) amide, and CT while reducing forskolin stimulation by only 22.0 +/- 4.9%. At 1:50, RM/1 reduced responses to histamine,
GLP-1
-(7-36) amide and CT by 20-30% but failed to inhibit forskolin-stimulated enzyme activity. At 1:100, the antiserum was ineffective versus all stimuli.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Stimulation of rat parietal cell function by histamine and GLP-1-(7-36) amide is mediated by Gs alpha. 820 24
Glucagon
enhances the electrical activity of pancreatic beta-cells. The mechanism of the
glucagon
-evoked enhancement of electrical activity was investigated in terms of glucose metabolism. ICR mice aged 6-12 weeks were used for experiments. Intracellular Ca2+ increased in parallel with the enhancement of electrical activity. The stimulating effect of
glucagon
on Ca2+ oscillation was suppressed by calmodulin-antagonists (Chlorpromazine, W-7, and trifluoperazine). To trace the
glucagon
-evoked change in glucose metabolism, the reduced pyridine nucleotide (
NAD
(P)H) fluorescence was monitored using the microfluorometry with the excitation of 360 nm and the emission of 465 nm in islet cell clusters mainly consisting of beta-cells. In the presence of 2.5 mM Ca2+
glucagon
(8.6 X 10(-8) M) increased the
NAD
(P)H fluorescence, while in the absence of Ca2+ the hormone had no effect on the fluorescence. Extracellular Ca2+ removal from the
glucagon
-containing perifusion solution decreased the fluorescence to the level which had been attained before
glucagon
was added. Chlorpromazine (10 microM) reversed the
glucagon
-induced increase of
NAD
(P)H fluorescence as well as removing Ca2+ W-7 (15 microM) and trifluoperazine (30 microM) also suppressed the
glucagon
-induced increase of
NAD
(P)H. These results suggest that Ca2+/calmodulin system is involved in the acceleration of glycogenolysis by
glucagon
in beta-cells. On the basis of these observations, the mechanism of
glucagon
-induced enhancement of electrical activity and the relative ineffectiveness of
glucagon
at low glucose concentrations were discussed.
...
PMID:Glucagon induces Ca2+-dependent increase of reduced pyridine nucleotides in mouse pancreatic beta-cells. 859 11
<< Previous
1
2
3
4
5
6
7
8
9
Next >>
