Gene/Protein
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Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Studies in vitro and with intact chicks support the view that liver is the major site of lipid biosynthesis in the chicken. Adipose tissue is relatively unimportant as a site of fatty acid biosynthesis in this species although it does have the ability to esterify fatty acids to triglycerides. The available evidence, therefore, suggests that in the chicken, and presumably other avian species, fatty acids are synthesized in liver and are transported as triglycerides in the plasma low-density lipoproteins to the adipose tissue for storage. Fasting, even for short periods of time, markedly depresses the capacity for hepatic lipogenesis in the chick. Food restriction for 2 hr. depresses hepatic lipogenesis by about 90% and refeeding for 1 hr./or/the intravenous administration of glucose or fructose restores the lipogenic capacity. Feeding diets high in fat or protein cannot be adequately explained on the basis of the reduction of dietary carbohydrate which accompanies increased dietary protein or fat levels. Dietary fat and protein appear to exert their effects on hepatic lipid synthesis by different mechanisms. The depression in hepatic fatty acid synthesis brought about by fasting or fat-feeding is accompanied, and probably preceded, by an increased plasma free fatty acid level. Under these conditions hepatic fatty-acyl CoA levels increase while free CoA levels are reduced. Long-chain acyl CoA derivatives are capable of inhibiting acetyl CoA carboxylase activity as well as citrate transport. The reduced availability of free CoA may limit the citrate cleavage reaction. Dietary alterations influence the hepatic lactate-pyruvate ratio of chicks, however the changes observed are not always consistent with the changes observed in rat liver. Chicks fed high-protein diets have a decreased hepatic lactate/pyruvate ratio indicative of a more oxidized cytoplasmic environment. This change in redox state may be associated with control of fatty acid synthesis in chicks fed high-protein diets.
Thyroxine
and
glucagon
affect hepatic fatty acid synthesis in the chick, however insulin appears to play a lesser role.
...
PMID:Lipid biosynthesis in the chick. A consideration of site of synthesis, influence of diet and possible regulatory mechanisms. 24 Jan 59
Immunoreactive insulin (IRI) and C-peptide secretory responses to terbutaline,
glucagon
, glucose and a standardized meal during continuous blood glucose monitoring were investigated in hyper- and hypothyroid patients before and after treatment. The beta 2-adrenoceptor agonist terbutaline (125 micrograms IV) induced prompt IRI and C-peptide responses in hyperthyroid patients. On the contrary, in the hypothyroid, no insulin or C-peptide responses were seen despite a slight enhancement of blood glucose concentrations.
Thyroxine
treatment of these patients improved the IRI and C-peptide responses and no blood glucose increment was then seen.
Glucagon
(250 micrograms IV) induced prominent IRI and C-peptide responses of similar magnitude in hyper- and hypothyroid patients before as well as after treatment. Before treatment, the blood glucose increment was greater in the hypothyroid patients than in the hyperthyroid but after treatment no difference between the 2 groups was seen. After a small load of glucose (6 g IV) no apparent difference in glucose tolerance was seen between hyper- and hypothyroid patients. However, the hyperthyroid patients had greater IRI and C-peptide responses to glucose than the hypothyroid but the differences diminished after treatment. Before treatment, hypothyroid patients had lower blood glucose response to a meal intake than hyperthyroid patients but no differences were seen between the 2 patient groups with regard to IRI- and C-peptide responses. After treatment, no differences between the 2 groups were seen with regard to blood glucose, IRI or C-peptide responses to the meal.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Glucose tolerance and insulin and C-peptide responses after various insulin secretory stimuli in hyper- and hypothyroid subjects before and after treatment. 241 49
Quantitative stereological methods have been adapted for the measurement of the volume of liver attributable to parenchymal, hematopoietic, and Kupffer cells and for the measurement of the relative and absolute number (per unit volume) of these cell types and the mean volume of the parenchymal cell. These morphological parameters are the main ones for interpreting the biochemical differentiation of liver. Quantitative changes in these parameters, in rat liver between the 15th day of gestation and adult life, are presented. Despite the large number of hematopoietic cells, the parenchymal cells fill more than half of the liver volume between the 15th and 18th days of gestation and 0.85 of the liver volume at term. The fraction of liver volume occupied by Kupffer cells is never more than 0.02; the number of Kupffer cells per cubic centimeter increases less than twofold between fetal and adult life. The mean volume of individual parenchymal cells undergoes a threefold rise during late fetal life, declines in the neonatal period, and doubles between the 12th and 28th postnatal days. With the morphometric data obtained, it is impossible to convert enzyme concentrations (units per gram, determined in homogenates of whole liver) to enzyme amounts per unit volume of parenchymal or hematopoietic tissue or per individual cell of either type. In late fetal liver, only rises in enzyme concentration less than twofold may be attributed to the enrichment of parenchymal tissue at the expense of hematopoietic elements. The sudden upsurge, by more than twofold, of hepatic enzymes of the late fetal cluster (and also of the neonatal and late suckling cluster) reflects rises per parenchymal mass and per parenchymal cell.
Thyroxine
and
glucagon
, the administration of which to fetal rats promotes enzyme differentiation in liver, are without appreciable effect on the cytological parameters studied. Hydrocortisone accelerates the involution of hematopoietic tissue in fetal liver. Enzymes that are diminished by prenatal injection of hydrocortisone may be concentrated in hematopoietic cells.
...
PMID:Cytomorphometry of developing rat liver and its application to enzymic differentiation. 440 Apr 51
Adenylate cyclase activity was measured in plasma membranes isolated from Morris Hepatoma 7800 and from control and host livers. The only difference found in tumor enzyme activity was the lack of response to
glucagon
. The membrane-binding capacities for the pancreatic hormones insulin and
glucagon
were measured. Hepatoma membranes did not bind
glucagon
. Insulin-binding parameters could not be determined because of high non-specific binding. The plasma levels of insulin in the tumor-bearing animals were approximately half of those found in controls, whereas the
glucagon
levels in plasma were 50% higher in tumor-bearing animals.
Thyroxine
and triiodothyronine plasma levels were reduced in tumor-bearing rats, while the thyroid-stimulating hormone level was within normal limits. The amount of cAMP (275 pmol g-1) and cGMP (3.6 pmol g-1) in the tumor were lower than in the host and control livers, but the ratio of cGMP to cAMP in the tumor was increased by a factor of 2. These results are discussed with respect to control mechanisms of cell proliferation in comparison with other hepato-proliferative states.
...
PMID:Hormonal changes and adenylate cyclase system in rat bearing 7800 Morris hepatoma. 634 40
The investigations were carried out on white rats determining the level and synthesis of acetylcholine (ACh) in the cerebral cortex, striatum, and in some experiments also in the brain stem.
Thyroxine
administered subcutaneously increased ACh synthesis in the cerbral cortex and reduced it in the striatum without changing the level of ACh in these structures. After thyroxine administration in vitro these changes were not observed. Intraperitoneal insulin caused no changes in the level and synthesis of ACh while in vitro ACh synthesis was increased in the cortex as well as striatum after insulin.
Glucagon
, hydrocortisone, adiuretin and oxytocin had no effect on ACh level and synthesis in the tested structures.
...
PMID:Investigations on the effects of certain hormones on acetylcholine metabolism in the central nervous system. 700 85
Acting in vivo, adrenalin and noradrenalin cause a statistically significant and permanent decrease in the motility of mouse spermatozoa remaining in the vas deferens. Intratesticular injection of vasopressin, oxytocin, insulin, and
glucagon
results in a decrease in spermatozoa motility in vas deferens, removal the spermatozoa to PBS in vitro, and an increase in percentage of motile spermatozoa on incubation medium.
Thyroxine
, calcytonin, and TRH did not affect motility of mouse spermatozoa in vivo.
...
PMID:Effects of selected hormones on the motility of spermatozoa in the mouse vas deferens. 785 64
In the liver of the fasted rat, the aldolase B (AldB) mRNA level decreased to about half of that of the control rat. When the control rat was refed the glucose-rich diet, the AldB mRNA level increased about six to seven times more than in the fasted rat. This increase was shown as the activation of the AldB gene transcription by a nuclear run-on assay. To understand the causal factor(s) for this activation, the relationship between the AldB mRNA level in the liver and the plasma concentrations of hormones, which are known as major regulators of carbohydrate metabolism during fasting and refeeding, was investigated. The plasma insulin level in the rat which was refed the glucose-rich diet increased in parallel to AldB mRNA level, while the plasma
glucagon
level decreased reciprocally to it. The relationship of the plasma corticosterone level to the AldB mRNA level was not obvious. To directly confirm the effects of these hormones on AldB gene transcription in the liver, the responses of AldB gene in the primary cultured hepatocytes to these hormones were examined. Insulin and dexamethasone were effective to activate AldB gene, while
glucagon
and thyroxine were suppressive.
Thyroxine
did not extinguish the effects of insulin and dexamethasone, but
glucagon
canceled them. Thus, it is probable that in vivo these hormones synergistically regulate the AldB gene transcription. In vitro transcription analysis of two AldB promoter constructs suggested that the proximal half of the AldB promoter (up to -92 bp from the transcription start site) is, at least in part, involved for this induction, and the distal half which contains liver-specific elements (-93 to -202 bp) is not involved. The possible explanation for the dietary regulation of aldolase B gene transcription in the liver is discussed.
...
PMID:Dietary and hormonal regulation of aldolase B gene transcription in rat liver. 797 70
