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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A number of regulatory peptides were investigated for their ability to elevate plasma cAMP. Pituitary adenylate cyclase activating peptide (PACAP)-27, PACAP-38, helodermin, helospectin I and II, vasoactive intestinal peptide (VIP),
glucagon
, parathyroid hormone (PTH), calcitonin and calcitonin gene-related peptide were among the peptides that were highly effective in raising plasma cAMP when given intravenously in equimolar doses to conscious mice. PACAP-27 and -38 were more effective than any of the other peptides. PACAP 16-38, secretin, gastrin-17, galanin, somatostatin, cholecystokinin-8s, pancreatic polypeptide, substance P, peptide YY and
neuropeptide Y
were inactive and also did not interfere with the PACAP-27-evoked rise in plasma cAMP levels. Repeated injections of PACAP-27 every 30 min caused a progressive reduction in the plasma cAMP response (measured 5 min after each injection). Forskolin, an activator of adenylate cyclase, dose-dependently raised the plasma concentration of cAMP and displayed a synergistic effect when given in a low dose concurrently with PTH or PACAP-38. The phosphodiesterase inhibitor rolipram dose-dependently raised the plasma concentration of cAMP. Combined treatment with PACAP-27 and a threshold dose of rolipram resulted in an exaggerated plasma cAMP response. Kidney hilus ligation suppressed the responses to PACAP-38, PTH, helodermin, helospectin, VIP,
glucagon
and calcitonin. Hepatectomy suppressed the response to
glucagon
but was without effect on the response to the other peptides. Pancreatectomy and spleenectomy reduced the response to VIP, but was without effect on the response to the other peptides. PACAP-27 stimulated cAMP efflux from the isolated rat tail vein. Hence, it cannot be excluded that blood vessels contribute to the peptide evoked plasma cAMP response in vivo.
...
PMID:Neuropeptides of the vasoactive intestinal peptide/helodermin/pituitary adenylate cyclase activating peptide family elevate plasma cAMP in mice: comparison with a range of other regulatory peptides. 133 41
Light-microscopical examination was carried out to investigate the emergence and development of several classes of immunoreactive cells in regenerating retinas of the adult newt (Triturus pyrrhogaster) after total retinal ablation. Immunoreactive proliferating cell nuclear antigen (ir-PCNA, a marker for replicating cells) was present in nuclei of all neuroblasts in the early mono-layered to several-layered stages (15-20 days after retinal ablation; days 15-20), but was lost progressively in an intermediate-to-central/peripheral order as cells and layers increased (days 20-25). Cells, which had lost ir-PCNA, began to separate to form the outer nuclear, inner nuclear and ganglion cell layers around days 25-30 (the cell separation stage). Finally, the location of ir-PCNA was restricted to a band of neuroblast cells at the retinal margin (days 30-35) as seen in intact adult retinas. Visinin-immunoreactive (ir) cells, mainly destined to be cones, appeared first singly or as clusters at the most distal layer in the intermediate region of retinas multi-layered with PCNA-ir neuroblasts, which was followed by appearance of opsin-ir rod outer segments and tyrosine hydroxylase-ir amacrine cells around the cell separation stage. Shortly later, cells respectively immunoreactive to glutamic acid decarboxylase,
neuropeptide Y
, serotonin,
glucagon
, glutamine synthetase, glial fibrillary acidic protein, substance P and protein kinase C were found to emerge also in an intermediate-to-central/peripheral sequence. Some of the
glucagon
-ir cells appeared to be of an interplexiform type.
...
PMID:An immunohistochemical study of regenerating newt retinas. 135 60
The levels of several regulatory peptides were measured in peripheral plasma samples from individuals with chronic cardiac failure (CCF) and matched controls in both the resting state and during a short period of maximal exercise. Basal levels of noradrenaline (NA; 705 +/- 114 vs 195 +/- 54 ng.l-1; mean +/- SEM; P < 0.05), plasma renin activity (PRA; 12.9 +/- 2.9 vs 2.1 +/- 0.3 ng AI ml-1.h-1; P < 0.05) and aldosterone (ALDO; 325 +/- 49 vs 87 +/- 8 ng.l-1; P < 0.05) were all raised in the patients with CCF, and increased further with exercise. Basal circulating levels of atrial natriuretic peptide (ANP) were also significantly higher in the CCF group compared to controls (136 +/- 35 vs 27 +/- 5 ng.l-1; P < 0.01), but the response to exercise was attenuated, so that at peak exercise, no significant difference was observed. Basal circulating levels of gastrin-releasing peptide (GRP) (29 +/- 4 vs 40 +/- 4 ng.l-1; P < 0.05) and secretin (13 +/- 1 vs 32 +/- 4 ng.l-1; P < 0.05) were significantly lower in the CCF group when compared to controls and there was no significant change in the levels of either peptide with exercise. Levels of neurokinin A (NKA),
neuropeptide Y
(
NPY
) and neurotensin (NT) were somewhat higher in patients, but the differences were not significant, and there were no changes during exercise. There were also no significant differences in the levels of vasoactive intestinal peptide (VIP), glucose-dependent insulinotropic polypeptide (GIP), insulin or
glucagon
in either experimental group both before and during exercise. We have therefore identified different circulating levels of certain regulatory peptides in patients with CCF, but the significance of these remains unclear.
...
PMID:Regulatory peptides in the plasma of patients with chronic cardiac failure at rest and during exercise. 139 15
Glucose homeostasis is maintained by complex neuroendocrine control mechanisms, involving three peripheral organs: the liver, pancreas, and adrenal gland, all of which are under control of the autonomic nervous system. During the past decade, abundant results from various studies on neuroendocrine control of glucose have been accumulated. The principal objective of this review is to provide overviews of basic adrenergic mechanisms closely related to glucose control in the three peripheral organs, and then to discuss the integrated glucoregulatory mechanisms in hemorrhage-induced hypotension and insulin-induced hypoglycemia with special reference to sympathoadrenal control mechanisms. The liver is richly innervated by sympathetic and parasympathetic nerves. The functional implication in glucoregulation of sympathetic nerves has been well-documented, while that of parasympathetic nerves remains less understood. More recently, hepatic glucoreceptors have been postulated to be coupled with capsaicin-sensitive afferent nerves, conveying sensory signals of blood glucose concentration to the central nervous system. The pancreas is also richly supplied by the autonomic nervous system. Besides the well documented adrenergic and cholinergic mechanisms, the potential implication of peptidergic neurotransmission by
neuropeptide Y
and neuromodulation by galanin has recently been postulated in the endocrine secretory function. Presynaptic interactions of these putative peptidergic neurotransmitters with the classic transmitters, noradrenaline and acetylcholine, in the pancreas remain to be clarified. It may be of particular interest that it was vagus nerve stimulation that caused a dominant release of
neuropeptide Y
over that caused by sympathetic nerve stimulation in the pig pancreas. The adrenal medulla receives its main nerve supply from the greater and lesser splanchnic nerves. Adrenal medullary catecholamine secretion appears to be regulated by three distinct local mechanisms: adrenoceptor-mediated, dihydropyridine-sensitive Ca2+ channel-mediated, and capsaicin-sensitive sensory nerve-mediated mechanisms. In response to hemorrhagic hypotension and insulin-induced hypoglycemia, the sympathoadrenal system is activated resulting in increases of adrenal catecholamine and pancreatic
glucagon
secretions, both of which are significantly implicated in glucoregulatory mechanisms. An increase in sympathetic nerve activity occurs in the liver during hemorrhagic hypotension and is also likely to occur in the pancreas in response to insulin-induced hypoglycemia. The functional implication of hepatic and central glucoreceptors has been suggested in the increased secretion of glucose counterregulatory hormones, particularly catecholamines and
glucagon
.
...
PMID:Sympathoadrenal system in neuroendocrine control of glucose: mechanisms involved in the liver, pancreas, and adrenal gland under hemorrhagic and hypoglycemic stress. 152 Nov 77
A radioimmunoassay for the measurement of rat pancreatic polypeptide (RPP) in serum or plasma has been developed and characterized using a new guinea-pig anti-rat-PP antibody. The assay provides a high degree of sensitivity and lacks cross-reactivity (CR less than 0.01%) to
neuropeptide Y
and peptide YY. It also does not interact with PPs of other species or peptide hormones namely, amylin,
glucagon
, human insulin, human-PP, human-proinsulin, rat C-peptide and rat insulin. The assay employs synthetic rat PP as standards from concentrations of 21-2100 pg/ml (i.e., 5-500 pM) and produces a sensitivity limit of 19 pg/ml (4.5 pM) PP at +/- 3 S.D. The intra- and interassay % coefficient of variations are 6.4% and 5.9%, respectively. The % recovery of RPP added to rat serum samples ranges from 98% to 103%. Assay of serum volumes ranging from 25 microliters to 100 microliters does not significantly alter the expected RPP level. The migration patterns of rat serum PP and that of a synthetic RPP are identical by Sephadex G-50 chromatographic analysis. The mean values of fasting and a 2 h post-feeding plasma RPP levels in normal rats are 40 +/- 2 and 80 +/- 10 pg/ml (9.5 pM and 19.0 pM), respectively. Rat-PP release during insulin induced hypoglycemia in conscious rats rises from 38 +/- 5 pg/ml to 261 +/- 34 pg/ml (9.0 to 62.1 pM, P less than 0.005) by 30 min. Additionally, the antibody used in this study cross-reacts well with mouse-PP as determined by linear serum dilution curves, thus making it useful in the measurement of murine-PP. In conclusion, we have developed and validated a sensitive and specific rat-PP assay. This assay provides a new tool for the reliable measurement of PP in physiologic studies using rat and mouse animal models.
...
PMID:The characterization of radioimmunoassay for rat pancreatic polypeptide in serum. 158 18
Immunohistochemistry on tissues of larval lampreys, Petromyzon marinus L., was used to determine the distribution of invariant somatostatin-14 (SST-14) and lamprey somatostatin-34 (SST-34) in the brain while antisera against porcine peptide tyrosine tyrosine (PYY), human
neuropeptide Y
(
NPY
), anglerfish peptide YG (aPY), salmon
glucagon
-like peptide (GLP), SST-14, and SST-34 were used in studies of the pancreas and anterior intestine. In the brain, SST-14 is the major form of somatostatin. SST-14- and SST-34-immunoreactive nerve fibers are distributed throughout the telencephalon, diencephalon, and mesencephalon. In the latter region SST-14 immunoreactivity is concentrated in nerve tracts in the nucleus interpeduncularis. Nerve cells within the olfactory bulbs are immunoreactive only to anti-SST-34. Cells immunostained with anti-SST-14 were localized within the ependymal and subependymal layers of the pars ventralis hypothalami and the subependymal layers of the pars dorsalis thalami. SST-14-immunoreactive perikarya are also distributed within the tegmentum mesencephali. Nerve fibers and cells immunoreactive to anti-SST-34 are detected in the pars ventralis hypothalami but these cells do not colocalize SST-14. Pancreatic islets, distributed within the epithelium and in the submucosal connective tissue at the esophageal-intestinal junction, are only immunoreactive to anti-insulin. The antisera revealed three distinct cell types in the intestinal epithelium: type 1 colocalizes aPY,
NPY
, and PYY; type 2 colocalizes SST-14 and SST-34; and type 3 demonstrates immunoreactivity only to anti-SST-34. Immunoreactivity to anti-GLP is absent.
...
PMID:Distribution of two forms of somatostatin and peptides belonging to the pancreatic polypeptide family in tissues of larval lampreys, Petromyzon marinus L.: an immunohistochemical study. 167 24
Food intake can be increased or decreased after either central or peripheral administration of peptides. Galanin,
neuropeptide Y
, opioid peptides, growth-hormone-releasing hormone, and desacetyl-melanocyte stimulating hormone increase food intake whereas insulin,
glucagon
, cholecystokinin, anorectin, corticotropin-releasing hormone, neurotensin, bombesin, cyclo-his-pro, and thyrotropin-releasing hormone reduce food intake. Many of these peptides have reciprocal effects on food intake and sympathetic activity with those peptides that stimulate food intake reducing sympathetic activity and vice versa. In addition,
neuropeptide Y
specifically increases carbohydrate intake. Galanin and opioid peptides on the other hand increase fat intake whereas enterostatin reduces fat intake.
Glucagon
decreases protein intake. The effect of peptides on specific nutrients suggests that peptides may work in part by modulating basic feeding mechanisms to lead to the selection of specific nutrients from the diet. This hypothesis might be called a nutrient-specific model of peptide-induced food intake.
...
PMID:Peptides affect the intake of specific nutrients and the sympathetic nervous system. 172 38
Available data on the effect of
neuropeptide Y
(
NPY
) on insulin release are conflicting and little data exist regarding the effect of
NPY
on
glucagon
secretion. The purpose of the present study, therefore, was to characterize the direct effect of
NPY
on the release of these pancreatic hormones and to examine the role of glucose on these interactions. Using a perifused mouse islet system, we found that
NPY
suppressed both basal and glucose-stimulated insulin secretion. Thus, basal insulin release assessed as mean integrated area under the curve/20 min (AUC/20 min) decreased from 1446 +/- 143 pg to 651 +/- 112 pg (P less than 0.05) with the addition of 2 x 10(-8) M
NPY
and the AUC/20 min for glucose stimulated insulin output decreased from 1973 +/- 248 pg to 1426 +/- 199 pg (P less than 0.05). In both cases, this inhibitory effect was followed after removing
NPY
by a stimulation of insulin secretion which was typical of a 'rebound off-response'. In contrast,
NPY
exerted a stimulatory effect on basal
glucagon
release and significantly reversed the suppressive effect of high glucose on
glucagon
output. The basal
glucagon
AUC/20 min increased from 212 +/- 103 pg to 579 +/- 316 pg (P less than 0.05), while
glucagon
secretion in the presence of 27.7 mM glucose increased from 75 +/- 26 pg to 255 +/- 28 pg (P less than 0.01). In conclusion, we have shown that the direct effect of
NPY
on the endocrine pancreas is to suppress insulin but stimulate
glucagon
secretion. These data are compatible with a role for
NPY
in the regulation of pancreatic hormone output.
...
PMID:Pancreatic hormone response to neuropeptide Y (NPY) perifusion in vitro. 192 90
Our objective was to find out if central injection of
neuropeptide Y
(
NPY
) would alter brown fat thermogenesis and white fat lipoprotein lipase activity. The following three groups of Sprague-Dawley rats received five injections over 24 h into the right lateral ventricle: 1)
NPY
(5 micrograms/injection) and ad libitum food; 2)
NPY
(5 micrograms/injection) and food restricted to control intake; 3) saline injection and ad libitum food. The
NPY
ad libitum-fed group consumed more food than the saline controls or
NPY
food-restricted animals. Brown fat thermogenic activity, assessed by GDP binding, was decreased relative to saline controls in both
NPY
-treated groups. White fat lipoprotein lipase activity was greatly increased in both
NPY
treatment groups compared with saline controls. The
NPY
effects on brown and white fat were not explained by measures of serum insulin,
glucagon
, glucose, or other metabolites. In a follow-up experiment, we asked whether food was necessary for expression of the
NPY
effects. Brown fat mitochondrial GDP binding indicated
NPY
effect even when no food was ingested. We conclude that intracerebroventricular administration of
NPY
promotes white fat lipid storage and decreases brown fat thermogenesis in addition to its known effect of stimulating food intake.
...
PMID:Effects of intracerebroventricular injection of neuropeptide Y on energy metabolism. 199 19
Immunoreactivity of antisera directed against human
neuropeptide Y
(
NPY
), anglerfish polypeptide YG (aPY), bovine pancreatic polypeptide (bPP), salmon pancreatic polypeptide (sPP), porcine peptide tyrosine tyrosine (PYY), and salmon
glucagon
-like peptide (GLP) was investigated in the endocrine pancreas and anterior intestine of adult lampreys, Petromyzon marinus, by immunohistochemical analysis. There was no immunoreactivity to anti-sPP and anti-bPP in any tissue and anti-GLP immunostaining was only present in the anterior intestine. The immunoreactivity to antisera raised against
NPY
, aPY, and PYY was colocalized within the same small number of cells in the caudal and cranial pancreas of juveniles and the caudal pancreas of upstream migrant adults. These antibodies did not immunostain B- or D-cells and thus,
NPY
, aPY, and PYY were likely localized in a third cell type (3a) in the lamprey pancreas. Immunostaining of a few cells with only anti-aPY suggested the possibility of a fourth cell type (3b). Immunoreactivity was similar in the cranial and caudal pancreas of male upstream migrants; however, in the female cranial pancreas, a few cells demonstrated intense immunoreaction to anti-aPY, while weaker immunostaining with this antiserum was observed in B-cells. In the intestine of juvenile and upstream migrant lampreys, positive immunostaining to GLP,
NPY
, aPY, and PYY antibodies was colocalized within the same cell. We believe that this cell may contain PYY/
glucagon
family peptides. Other intestinal cells immunostained with either GLP or somatostatin-34 antiserum.
...
PMID:Immunoreactivity to peptides belonging to the pancreatic polypeptide family (NPY, aPY, PP, PYY) and to glucagon-like peptide in the endocrine pancreas and anterior intestine of adult lampreys, Petromyzon marinus: an immunohistochemical study. 202 16
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