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)

Rat liver plasma membranes contain (Ca2+-Mg2+)-ATPase sensitive to inhibition by both glucagon and Mg2+. We have previously shown that Mg2+ inhibition is mediated by a 30,000-dalton inhibitor, originally identified as a membrane-bound protein. In fact, this inhibitor is also present in the 100,000 X g supernatant of the total liver homogenate. Its purification was achieved from this fraction by a combination of ammonium sulfate washing, gel filtration, and cationic exchange chromatography. N-Ethylmaleimide (NEM) treatment caused the inactivation of the purified inhibitor, which suggested that this protein possesses at least one NEM-sensitive sulfhydryl group essential for its activity. Treatment of the liver plasma membranes with NEM resulted in a 2- and 5-fold decrease in the affinity of the (Ca2+-Mg2+)-ATPase for glucagon and Mg2+, respectively, while the basal enzyme activity remained unchanged. This effect of NEM was concentration-, pH-, and time-dependent, optimal conditions being obtained by a 60-min treatment of plasma membranes with 50 mM NEM, at pH 7 and at 4 degrees C. The presence of 0.5 mM Mg2+ during NEM treatment of the plasma membranes prevented NEM inactivation. Reconstitution experiments showed that addition of the purified inhibitor to NEM-treated plasma membranes restored the inhibitions of the (Ca2+-Mg2+)-ATPase by both magnesium and glucagon. It is proposed that the (Ca2+-Mg2+)-ATPase inhibitor not only confers its sensitivity of the liver (Ca2+-Mg2+)-ATPase to Mg2+, but also mediates the inhibition of this system by glucagon.
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PMID:The inhibitor of liver plasma membrane (Ca2+-Mg2+)-ATPase. Purification and identification as a mediator of glucagon action. 316 Jul 1

Clearance experiments were performed to characterize the sensitivity to vasopressin of the thick ascending limbs and collecting duct system of the rat kidney. The response of the thick ascending limbs was evaluated by measuring the Mg2+ excretion rate in the urine, since the [arginine-8] vasopressin-mediated effects on Mg2+ excretion are the direct result of a stimulation of Mg2+ reabsorption in this nephron segment, and the response of the collecting ducts was evaluated by changes in urine flow. To avoid the effects of parathyroid hormone, glucagon, and calcitonin, which stimulate Mg2+ reabsorption in the thick ascending limb and distal tubule, and of calcitonin, which increases the permeability of the cortical collecting ducts to water, experiments were performed on Brattleboro D. I. rats (with hereditary diabetes insipidus, due to a lack of [Arg8]vasopressin) acutely deprived of endogenous parathyroid hormone, calcitonin, and glucagon. Vasopressin infused at rates up to 5 pg/min did not reduce the Mg2+ fractional excretion rate, whereas at 5 pg/min water excretion was decreased by 50%. The half-maximal reduction of Mg2+ excretion occurred at vasopressin infusion rates 4-6 times higher than those necessary to diminish the water excretion rate to the same extent. We conclude that in vivo, two segments involved in the production of concentrated urine have different sensitivities to vasopressin and that this difference in sensitivity is very similar for the biological response in vivo and the adenylate cyclase activation in vitro. We suggest that both the magnitude and the nature of the effects of [Arg8]vasopressin on the kidney may vary according to the required antidiuretic response.
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PMID:Sensitivities of rat kidney thick ascending limbs and collecting ducts to vasopressin in vivo. 345 86

Present evidence suggests that the renal handling of magnesium is normally a filtration-reabsorption process as evidence for secretion is unsubstantiated. Magnesium reabsorption has distinctive features when compared with that of sodium and calcium. The proximal tubule concentration of magnesium rises to levels about 1.5 times greater than the glomerular filtrate and only 20-30% of the filtered magnesium is reabsorbed in this segment. Although the fractional reabsorption of magnesium is only half that of sodium, it changes in parallel with that of sodium in response to changes in extracellular fluid volume. The major portion of filtered magnesium (some 65%) is reabsorbed in the loop of Henle and evidence indicates that the thick ascending limb is the principal segment involved in magnesium absorption. Recent observations suggests that magnesium reabsorption in the ascending limb may be voltage dependent and secondary to active sodium chloride reabsorption. The loop of Henle appears to be the major nephron site where magnesium reabsorption is regulated possibly by cAMP-mediated hormones including parathyroid hormones, calcitonin, glucagon and antidiuretic hormone. About 10% of the filtered magnesium is delivered into the distal nephron. The distal tubule reabsorbs only a small fraction of the filtered magnesium which may be regulated by the same cAMP-mediated hormones involved in control of magnesium in the loop.
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PMID:The physiology of renal magnesium handling. 354 6

Basal and stimulated adenylate cyclase specific activity was characterized in gill plasma membrane of freshwater-adapted trout by measuring the conversion of [alpha-32P]ATP into [alpha-32P]cyclic AMP. Both basal and isoproterenol- or sodium fluoride-stimulated enzyme activities were linear with time and protein concentration. The optimum activities were obtained using a pH buffer of 7.5 and a temperature of 20 degrees. The Km for ATP was 0.5 mM in the presence or absence of the stimulators. The presence of 10(-5) M guanosine-5'-triphosphate and 4 X 10(-3) M MgCl2 (2.41 X 10(-3) M free Mg2+) was required to optimize not only the basal activity but also the stimulation ratio (test/control) produced by these agents. On the contrary, Ca2+ was inhibitory. IC50 for CaCl2 was 5 X 10(-4) M (10(-7) M free Ca2+) in the presence or absence of the stimulators. Under these conditions, the basal adenylate cyclase specific activity was 400-450 pmol/mg protein/10 min. A maximal stimulation was produced by isoproterenol or PGE1 10(-5) M (50% increase over basal activity) or by glucagon 5.7 X 10(-10) M (30%). In addition, this enzyme displayed high sensitivity to sodium fluoride which induced a particularly large maximal effect (370%) at a concentration of 10(-2) M.
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PMID:Basal and stimulated adenylate cyclase activity in the gill epithelium of the rainbow trout. 362 74

The total Ca2+ content of the endoplasmic reticulum and the total Ca2+ and Mg2+ content of mitochondria were determined by electron probe microanalysis of rat liver rapidly frozen in vivo following brief (5-15 s) stimulation with vasopressin or prolonged (10-12 min) stimulation with vasopressin + glucagon. Brief vasopressin injection into the anterior mesenteric vein released 1.8 +/- 0.3 (S.D.) mmol of Ca2+/kg dry weight, from the rough endoplasmic reticulum (p less than 0.01), reducing Ca2+ content of the endoplasmic reticulum from 4.4 +/- 0.2 (S.E.) (controls) to 2.6 +/- 0.2 mmol of Ca2+/kg dry weight. Following vasopressin injection, endoplasmic reticulum Ca2+ was also significantly (p less than 0.025) lower than that in brief sham injected animals (3.5 +/- 0.2 mmol/kg dry weight). Mitochondrial Ca2+ was between 1.0 and 2.3 (+/-0.2) mmol/kg dry weight of mitochondrion, under all conditions studied, and no significant differences were observed. Both hormonal and brief sham injection into the anterior mesenteric vein increased mitochondrial Mg2+ from 42 (+/-0.8) to 49 (+/-1.8) mmol/kg dry weight (p less than 0.05). Hormonal stimulation of Mg2+ uptake was further confirmed by injection of vasopressin + glucagon into the jugular vein (to avoid any stimulation of the liver by the anterior mesenteric vein injection itself); mitochondrial Mg2+ increased from 43 (+/-0.9) (10-min sham) to 57 (+/-1.3) mmol/kg dry weight, with 10-min vasopressin + glucagon injection (p less than 0.01). These results demonstrate that hormones can release Ca2+ from the endoplasmic reticulum and modulate mitochondrial Mg2+ content in vivo without causing detectable changes in mitochondrial Ca2+.
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PMID:Subcellular calcium and magnesium mobilization in rat liver stimulated in vivo with vasopressin and glucagon. 368 Feb 16

Incubation of rat liver plasma membranes with liposomes of dioleoyl phosphatidic acid (dioleoyl-PA) led to an inhibition of adenylate cyclase activity which was more pronounced when fluoride-stimulated activity was followed than when glucagon-stimulated activity was followed. If Mn2+ (5 mM) replaced low (5 mM) [Mg2+] in adenylate cyclase assays, or if high (20 mM) [Mg2+] were employed, then the perceived inhibitory effect of phosphatidic acid was markedly reduced when the fluoride-stimulated activity was followed but was enhanced for the glucagon-stimulated activity. The inhibition of adenylate cyclase activity observed correlated with the association of dioleoyl-PA with the plasma membranes. Adenylate cyclase activity in dioleoyl-PA-treated membranes, however, responded differently to changes in [Mg2+] than did the enzyme in native liver plasma membranes. Benzyl alcohol, which increases membrane fluidity, had similar stimulatory effects on the fluoride- and glucagon-stimulated adenylate cyclase activities in both native and dioleoyl-PA-treated membranes. Incubation of the plasma membranes with phosphatidylserine also led to similar inhibitory effects on adenylate cyclase and responses to Mg2+. Arrhenius plots of both glucagon- and fluoride-stimulated adenylate cyclase activity were different in dioleoyl-PA-treated plasma membranes, compared with native membranes, with a new 'break' occurring at around 16 degrees C, indicating that dioleoyl-PA had become incorporated into the bilayer. E.s.r. analysis of dioleoyl-PA-treated plasma membranes with a nitroxide-labelled fatty acid spin probe identified a new lipid phase separation occurring at around 16 degrees C with also a lipid phase separation occurring at around 28 degrees C as in native liver plasma membranes. It is suggested that acidic phospholipids inhibit adenylate cyclase by virtue of a direct headgroup specific interaction and that this perturbation may be centred at the level of regulation of this enzyme by the stimulatory guanine nucleotide regulatory protein NS.
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PMID:Acidic phospholipid species inhibit adenylate cyclase activity in rat liver plasma membranes. 374 83

Membrane-bound adenylate cyclase (AC) activity was much higher in the presence of Mn2+ than of Mg2+. The Mn2+-sensitive adenylate cyclase (MnAC) showed a linear rate of activity for at least 60 min. In contrast, the Mg2+-sensitive AC (MgAC) displayed a considerable burst in activity, so that after 90 min of activity it was approximately tenfold higher than at the start of incubation. Guanine nucleotides enhanced MgAC activity; 10(-6) to 10(-5) M of 5'-guanylylimidodiphosphate caused a threefold stimulation. The MgAC could be stimulated by hormones (FSH, hCG, PGE1, isoproterenol, glucagon), the highest activation being achieved with FSH. Increasing levels of ATP produced a concentration-dependent increase in MgAC activity. The apparent affinity of the AC for MgATP increased threefold (Km 0.50-0.15 mM) by raising the free Mg2+ concentration from 0.4 to 10.0 mM. The membrane-bound AC of the blue fox testis is thus regulated by hormones, Mg2+, and guanine nucleotides in a similar manner to ACs in other somatic cells and in testes from other species. The high MnAC activity in membrane particles from these testes probably represents membrane-bound AC activity in germ cells. The burst in MgAC activity during incubation may represent proteolytic activation of membrane-bound germ cell AC, with a gradual appearance of Mg2+ sensitivity.
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PMID:Membrane-bound adenylate cyclase activity in the testis of the blue fox. 393 98

Low serum, cerebrospinal fluid, erythrocyte, muscle and bone Mg concentrations have been found in liver cirrhosis, indicating a Mg deficiency. Decreased intake, fat malabsorption, renal tubular acidosis and increased serum levels of aldosterone, growth hormone and glucagon could be the causative factors.
Magnesium 1985
PMID:Magnesium and liver cirrhosis: a hypothesis. 403 1

Cyclic AMP formation from ATP was stimulated by unpurified and partially purified soluble hepatic guanylate cyclase in the presence of nitric oxide (NO) or compounds containing a nitroso moiety such as nitroprusside, N-methyl-N-nitro-N-nitrosoguanidine (MNNG), nitrosyl ferroheme, and S-nitrosothiols. Cyclic AMP formation was undetectable in the absence of NO or nitroso compounds and was not stimulated by fluoride or glucagon, indicating the absence of adenylate cyclase activity. The nitroso compounds failed to activate, whereas fluoride or glucagon activated, adenylate cyclase in washed rat liver membrane fractions. Cyclic GMP formation from GTP was markedly stimulated by the soluble hepatic fraction in the presence of NO or nitroso compounds. Cyclic AMP formation by partially purified guanylate cyclase was competitively inhibited by GTP and cyclic GMP formation is well-known to be competitively inhibited by ATP. Therefore, it appears that activated guanylate cyclase, rather than adenylate cyclase, was responsible for the formation of cyclic AMP from ATP. Formation of cyclic AMP of cyclic GMP was enhanced by thiols, inhibited by hemoproteins and oxidants, and required the addition of either Mg2+ or Mn2+. Further, several nitrosyl ferroheme compounds and S-nitrosothiols stimulated the formation of both cyclic AMP and cyclic GMP by the soluble hepatic fraction. These observations support the view that soluble guanylate cyclase is capable, under certain well-defined conditions, of catalyzing the conversion of ATP to cyclic AMP.
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PMID:Adenosine 3',5'-monophosphate formation by preparations of rat liver soluble guanylate cyclase activated with nitric oxide, nitrosyl ferroheme, S-nitrosothiols, and other nitroso compounds. 611 40

Investigation of the subcellular and molecular components of insulin secretion has been made difficult by the small quantities of material available. The recent development of a transplantable rat islet cell tumour of high insulin content and state of differentiation suggested a system more amenable to analysis. To validate the tumour as a model of secretion we have studied its release of insulin. In acute experiments in vitro immunoreactive insulin release was increased by leucine, glucagon, theophylline and dibutyryl cyclic AMP, though not by glucose. Leucine (20 mmol/l) plus theophylline (5 mmol/l) caused an abrupt, sustained and rapidly reversible stimulation of two- to fivefold. The response was inhibited by antagonists of cellular oxidative phosphorylation (cyanide, 2,4-dinitrophenol, antimycin A), calcium flux (EGTA, verapamil, Mg2+), calmodulin (trifluoperazine), microtubules (vinblastine, colchicine) and by adrenaline and somatostatin. These findings suggest that the tumour secretes insulin by an exocytotic mechanism similar to that of normal islet tissue.
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PMID:Insulin secretion by a transplantable rat islet cell tumour. 611 93


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