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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In an effort to find analogs of
glucagon
that would bind to the
glucagon receptor
of the rat liver membrane but would not activate membrane-bound adenyl cyclase, several hybrid molecules were synthesized which contained sequences from both
glucagon
and secretin. [Asp3, Glu9]
Glucagon
and [Asp3, Glu9, Arg12]
glucagon
were inactive in the adenyl cyclase assay even at high concentrations but retained some binding affinity for the receptor. They were able to displace 125I-
glucagon
completely from its receptor and could completely inhibit the activation of adenyl cyclase by natural or synthetic
glucagon
. The inhibition index [I/A]50 was approximately 110 for both analogs. [Asp3]
Glucagon
, [Glu3]
glucagon
and [Asp3, Lys17, 18, Glu21]
glucagon
were weak partial agonists, while [Asp3, Glu21]
glucagon
was inactive and a poor inhibitor. The peptides were synthesized by solid-phase methods and purified to homogeneity by reverse-phase high-performance liquid chromatography on C18 silica columns. These are the first fully synthetic competitive
glucagon
antagonists to be reported.
...
PMID:Glucagon antagonists. Synthesis and inhibitory properties of Asp3-containing glucagon analogs. 303 23
Several
glucagon
analogs were synthesized in an effort to find derivatives that would bind with high affinity to the
glucagon receptor
of rat liver membranes but would not activate membrane-bound adenylate cyclase and, therefore, would serve as antagonists of the hormone. Measurements on a series of
glucagon
/secretin hybrids indicated that replacement of Asp9 in
glucagon
by Glu9, found in secretin, was the important sequence difference in the N terminus of the two hormones. Further deletion of His1 and introduction of a C-terminal amide resulted in des-His1-[Glu9]
glucagon
amide, which had a 40% binding affinity relative to that of native
glucagon
but caused no detectable adenylate cyclase activation in the rat liver membrane. This antagonist completely inhibited the effect of a concentration of
glucagon
that alone gave a full agonist response. It had an inhibition index of 12. The pA2 was 7.2. An attempt was made to relate conformation with receptor binding. The peptides were synthesized by solid-phase methods and purified to homogeneity by reverse-phase high-performance liquid chromatography on C18-silica columns.
...
PMID:Synthetic peptide antagonists of glucagon. 303 68
The association process of
glucagon receptor
binding in purified rat liver plasma membranes and prolonged incubation of the hormone-receptor complex at 30 degrees C did not result in degradation of bound labelled
glucagon
. In contrast, up to 95% of the non-membrane-bound labelled
glucagon
was degraded. The rate of spontaneous dissociation of the
glucagon
-receptor complex was slow, and amounted to about 0.1% per min of that bound. GTP greatly enhanced the rate of dissociation. Half the maximal dissociation of the complex was effected by 10(-5) mol/l of GTP under equilibrium binding conditions. At maximally effective concentrations of GTP, 80% of the
glucagon
-receptor complex was dissociated within 2 min. A microperifusion system for the perifusion of isolated plasma membranes was devised and used for the separation of labelled
glucagon
from the plasma membranes subsequent to a GTP-induced dissociation of the hormone-receptor complex. Rebinding of the dissociated peptide to fresh membranes showed that maximum binding ability was retained. The
glucagon
molecule was protected against degradation while bound to the receptor, indicating that the
glucagon
effector system is completely separate from the inactivating system(s) in isolated plasma membranes. Thus, the hormonal effect of
glucagon
could be exerted through the sequential interaction of each
glucagon
molecule with several receptors.
...
PMID:Glucagon receptor binding, dissociation and degradation in rat liver plasma membranes studied by a microperifusion method. 303 48
Treatment of intact hepatocytes with
glucagon
, TH-
glucagon
[( 1-N-alpha-trinitrophenylhistidine, 12-homoarginine]
glucagon
), angiotensin or vasopressin led to a rapid time- and dose-dependent loss of the
glucagon
-stimulated response of the adenylate cyclase activity seen in membrane fractions isolated from these cells. Intracellular cyclic AMP concentrations were only elevated with
glucagon
. All ligands were capable of causing both desensitization/loss of
glucagon
-stimulated adenylate cyclase activity and stimulation of inositol phospholipid metabolism in the intact hepatocytes. Maximally effective doses of angiotensin precluded any further inhibition/desensitizing action when either
glucagon
or TH-
glucagon
was subsequently added to these intact cells, as has been shown previously for the phorbol ester TPA (12-O-tetradecanoylphorbol 13-acetate) [Heyworth, Wilson, Gawler & Houslay (1985) FEBS Lett. 187, 196-200]. Treatment of intact hepatocytes with these various ligands caused a selective loss of the
glucagon
-stimulated adenylate cyclase activity in a washed membrane fraction and did not alter the basal, GTP-, NaF- and forskolin-stimulated responses. Angiotensin failed to inhibit
glucagon
-stimulated adenylate cyclase activity when added directly to a washed membrane fraction from control cells.
Glucagon
GR2 receptor-stimulated adenylate cyclase is suggested to undergo desensitization/uncoupling through a cyclic AMP-independent process, which involves the stimulation of inositol phospholipid metabolism by
glucagon
acting through GR1 receptors. This action can be mimicked by other hormones which act on the liver to stimulate inositol phospholipid metabolism. As the phorbol ester TPA also mimics this process, it is proposed that protein kinase C activation plays a pivotal role in the molecular mechanism of desensitization of
glucagon
-stimulated adenylate cyclase. The site of the lesion in desensitization is shown to be at the level of coupling between the
glucagon receptor
and the stimulatory guanine nucleotide regulatory protein Gs, and it is suggested that one or both of these components may provide a target for phosphorylation by protein kinase C.
...
PMID:The rapid desensitization of glucagon-stimulated adenylate cyclase is a cyclic AMP-independent process that can be mimicked by hormones which stimulate inositol phospholipid metabolism. 303 85
Glucagon
may play a role in the metabolic derangements of overt Type 2 (non-insulin-dependent) diabetes mellitus. We therefore have evaluated the early steps in
glucagon
action by investigating the hormone-sensitive adenylyl cyclase system in liver membranes from seven Type 2 diabetic patients with fasting hyperglycaemia and two-fold elevations in plasma
glucagon
. The comparison was made with seven control subjects matched for age, sex and body weight.
Glucagon receptor
binding was almost identical in the two groups. There were, however, marked alterations in the adenylyl cyclase activity in membranes from the diabetic patients. This activity was reduced by 35-50% when compared to control activity. Basal cyclase activity, as well as the activity after stimulation with
glucagon
or with agents (i.e., sodium fluoride and forskolin) that act beyond the
glucagon receptor
, was significantly decreased (p less than 0.05, p less than 0.001 respectively). In conclusion, uncontrolled Type 2 diabetes in associated with an over-all loss of responsiveness of the hormone-sensitive adenylyl cyclase in human liver, which apparently results from post-receptor alterations. This change may provide a mechanism for reducing the effect of hyperglycagonaemia in Type 2 diabetes mellitus.
...
PMID:Altered action of glucagon on human liver in type 2 (non-insulin-dependent) diabetes mellitus. 303 42
Glucagon
and secretin and some of their hybrid analogs potentiate glucose-induced release of insulin from isolated mouse pancreatic islets. It was recently shown that the synthetic
glucagon
analog, desHis1[Glu9]
glucagon
amide, does not stimulate the formation of cyclic adenosine monophosphate in the rat hepatocyte membrane, but binds well to the
glucagon receptor
and is a good competitive antagonist of
glucagon
. In the present study the effect of this analog on isolated islets was examined. desHis1-[Glu9]
glucagon
amide at 3 x 10(-7) M, in the presence of 0.01 M D-glucose, increased the release of insulin by 30% and maintained that level for the full 30-min test period. The rate of insulin release returned to the glucose-induced base line after removal of the peptide. The same insulin level was produced by 3 x 10(-9) M
glucagon
, and at 3 x 10(-7) M
glucagon
insulin release was enhanced 290% above the glucose base line.
...
PMID:Potentiation of glucose-induced insulin release in islets by desHis1[Glu9]glucagon amide. 307 46
Mammalian
glucagon
is thought to be highly conserved. Glucagons from pig, cow, human, rat, and hamster have identical amino acid sequences, whereas the amino acid contents of rabbit and camel glucagons are consistent with this 29-amino acid sequence. It had earlier been reported that guinea pig (GP)
glucagon
contains 40 amino acids. In the current study,
glucagon
was purified from two GP pancreata by a series of three HPLC steps after acid-alcohol extraction and acetone precipitation. GP
glucagon
is a 29-amino acid peptide that differs from other mammalian glucagons by substitution of Gln for Asp in position 21, Leu for Val in position 23, Lys for Gln in position 24, Leu for Met in position 27, and Val for Thr in position 29. In view of the marked changes in the COOH-terminal of GP
glucagon
, receptor binding studies were performed using both rat and GP liver membranes. Labeled synthetic porcine
glucagon
has similar binding in the two systems and its binding is inhibited to a similar degree by synthetic porcine
glucagon
, whereas GP
glucagon
is 10-fold less potent at inhibiting binding in both systems. This suggests that
glucagon receptor
binding sites in the GP are evolutionarily more conserved than is GP
glucagon
.
...
PMID:Guinea pig glucagon differs from other mammalian glucagons. 395 84
2-Nitro-4-azidophenylsulphenyl-
glucagon
, a specific photoaffinity label for
glucagon
receptors, was synthesized and radioactively labelled with 125I. The radio-labelled peptide was purified from the reaction mixture by high-performance liquid chromatography in one step by isocratic elution from a C18 column with 20.4% n-propanol in 10 mM phosphate buffer (pH 2.5) as eluent. This
glucagon
derivative can be used to attach a label specifically to the
glucagon receptor
. The binding ability of the photoaffinity derivative was tested on isolated intact rat hepatocytes. Compared with a Kd of 3 nM for unmodified monoiodinated
glucagon
, the Kd value of the photoaffinity labelled monoiodinated
glucagon
tracer was 7 nM.
...
PMID:Purification of radioiodinated photoactivable glucagon by isocratic high-performance liquid chromatography. 404 35
We have developed a reverse-phase HPLC method to purify 125I-labeled products resulting from the chloramine-T-based iodination of
glucagon
and have used the products [(125I)iodoTyr13]
glucagon
, [(125I)iodoTyr10,13]
glucagon
, and [(125I)iodoTyr10]
glucagon
) to study the receptor binding of
glucagon
and the cell-mediated metabolism of the hormone by isolated canine hepatocytes. The extent of binding of the three labeled glucagons to cell receptors differed at steady state (8.5, 11.9, and 12.6% of the three peptides, respectively, becoming cell-associated), but each of the labeled glucagons approached steady state binding at the same rate. Further, unlabeled
glucagon
competed for the binding of each of the labeled peptides in parallel under steady state conditions, and each of the peptides showed potent activity in inhibiting [14C]fructose incorporation into glycogen. Gel filtration of the acetic acid-extracted, cell-associated products of radiolabeled
glucagon
binding revealed 10-20% of the material as a shoulder on the descending limb of the peak of hormone for each of the three labeled peptides. Trypsin digestion of the lower molecular weight peptide derived from [(125I)iodoTyr13]
glucagon
resulted in a fragment containing residues 13 to 17 as the only detectable radiolabeled product. On the other hand, trypsin digestion of the analogous peptide derived from [(125I)iodoTyr10]
glucagon
revealed, in addition to the radiolabeled fragment containing residues 1 to 12, a major fragment identified by radiosequence analysis to contain residues 4 to 12 and a minor fragment identified to contain residues 7 to 12. We conclude that (a) notwithstanding apparent differences in affinities exhibited by [(125I)iodoTyr13]
glucagon
, [(125I)iodoTyr10,13]
glucagon
, and [(125I)iodoTyr10]
glucagon
for binding to canine hepatocytes, the interactions of all three peptides with the
glucagon receptor
are functionally equivalent, and (b) the cell-mediated metabolism of receptor-bound
glucagon
involves the formation of hormone-derived peptides in which the biologically important NH2-terminal region of the hormone has been modified by limited proteolytic cleavage.
...
PMID:Receptor binding and cell-mediated metabolism of [125I]monoiodoglucagon by isolated canine hepatocytes. 608 19
The hepatic
glucagon receptor
was covalently labeled with [125I-Try10]monoiodoglucagon [( 125I]MIG) by use of the heterobifunctional cross-linker hydroxysuccinimidyl p-azidobenzoate. Labeling of the Mr = 63,000 peptide was sensitive to
glucagon
and GTP at concentrations at which they affect [125I]MIG binding to the receptor. The labeled receptor was solubilized with Lubrol-PX, and the hydrodynamic characteristics of the receptor were determined. The molecular parameters of the solubilized receptor are: S20,w = 4.3 +/- 0.1, Stokes radius = 6.3 +/- 0.1 nm, frictional coefficient f/f0 = 1.8, and a calculated Mr = 119,000. Incubation of liver membranes at 32 degrees C for 15 min prior to the addition of [125I]MIG permitted us to identify the high molecular weight form (Mr = approximately 113,000) of the receptor by direct sodium dodecyl sulfate-gel electrophoretic analysis. The Mr = 63,000 peptide can be adsorbed to wheat germ lectin-Sepharose. The glycoprotein nature of the receptor has been utilized to develop an assay for the detergent-solubilized receptor that uses wheat germ lectin-Sepharose as a solid matrix to adsorb the [125I] MIG-receptor complex. The free hormone remains in the liquid phase and is removed in the supernatant after low speed centrifugation. 3-[(3-Cholamidopropyl)dimethylammonio]-1-propane sulfonate (CHAPS) solubilizes receptors with retention of [125I]MIG binding activity. [125I]MIG binding to the CHAPS-solubilized receptor is specifically affected by unlabeled
glucagon
. Interaction of [125I]MIG with the soluble receptor is insensitive to the presence of GTP. IC50 for
glucagon
using the soluble receptor was 33-70 nM, irrespective of the presence or absence of GTP, while when the membrane-bound receptor was used, the IC50 in the absence of GTP was 2-4 nM and in the presence of GTP was 35-80 nM. These data allow us to conclude that the hepatic
glucagon receptor
in the membrane and in the nondenaturing detergent solution is a dimer of the Mr = 63,000 hormone-binding subunit and a glycoprotein. The soluble receptor does not display any functional interaction with the stimulatory regulator.
...
PMID:The hepatic glucagon receptor. Solubilization, characterization, and development of an affinity adsorption assay for the soluble receptor. 608 31
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