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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We describe the distribution of type II insulin-like growth factor receptors among canalicular (cLPM) and basolateral (bLPM) subfractions of rat liver plasma membranes (LPM). BLPM bound 3 times more 125I-IGF II than cLPM. The number of receptors was (1.3 +/- 0.15) X 10(-12) mol/mg in bLPM, and (0.4 +/- 0.17) X 10(-12) mol/mg in cLPM. Insulin-like growth factor II (IGF II) was 10 times more potent than insulin-like growth factor I (IGF I) in displacing 125I-IGF II from both basolateral and canalicular binding sites.
Insulin
did not interfere with binding of 125I-IGF II in either LPM preparations. Our findings point to an
asymmetrical
hepatocellular distribution of type II IGF receptors, thus extending the concept of surface polarization of hepatocytes to growth promoting hormone receptors.
...
PMID:Polar surface distribution of type II insulin-like growth factor receptor in rat hepatocytes. 217 7
The internal pH (pHi) of chick muscle cells is determined by the transmembrane Na+ gradient. Li+, but not K+, Rb+ or Cs+, can substitute for Na+ for regulating the internal pH of chick muscle cells. Pharmacological evidence using amiloride and amiloride analogs has shown that the Na+/H+ exchange system is the membrane mechanism that couples the pHi to the transmembrane Na+ gradient. The pHi dependence of the amiloride-sensitive Na+/H+ exchange mechanism was defined. Internal H+ interacts cooperatively with the Na+/H+ exchange system, in contrast with external H+, thus indicating an
asymmetrical
behaviour of this exchanger. The half-maximum effect for the activation by the internal H+ of the Na+ transporting activity of the amiloride-sensitive Na+/H+ exchange was observed at pH 7.4. The Hill coefficient of the H+ concentration dependence is higher than 3.
Insulin
was shown to have no effect on the pHi of chick muscle cells.
...
PMID:The Na+-dependent regulation of the internal pH in chick skeletal muscle cells. The role of the Na+/H+ exchange system and its dependence on internal pH. 609 Jan 29
To characterize the interaction of insulin with the renal proximal tubular cell, we measured insulin-stimulated phosphorylation in basolateral membranes and brush border membranes isolated from canine renal cortex.
Insulin
stimulated the specific phosphorylation of a 92,000 Mr protein band demonstrable on autoradiograms of sodium dodecyl sulfate-polyacrylamide gels of basolateral membranes. Dephosphorylation of the 92,000 Mr band occurred over time.
Insulin
-stimulated phosphorylation was concentration dependent, being clearly detectable at 10(-9) M insulin and maximal at 10(-6) M. The phosphorylated 92,000 Mr protein band from detergent-solubilized basolateral membranes was immunoprecipitated using serum from a patient with anti-receptor antibodies. No insulin-stimulated phosphorylation was detected in brush border membranes. Binding of insulin to membranes was highly specific for native hormone and was severalfold greater in basolateral membranes than in brush border membranes. These observations are consistent with the
asymmetrical
distribution of insulin-stimulated protein kinase as well as specific insulin binding sites in the proximal tubular cell. The data suggest that insulin exerts physiological effects on the cell through binding to specific basolateral membrane receptors and phosphorylation of those receptors.
...
PMID:Insulin-stimulated phosphorylation and insulin binding in canine renal basolateral membranes. 638 75
We studied the uptake of leucine, phenylalanine, and the amino acid analog, 2-aminonorborane-2-carboxylic acid, by rat hepatoma cells in tissue culture. The uptake of these amino acids was partially mediated by a plasma membrane transport system similar to the L agency described in other cell types in that it does not require extracellular sodium and is subject to trans-stimulation. Initial rates of sodium-independent transport of these amino acids were calculated using mathematical transformations of the uptake time course curves. The glucocorticoid dexamethasone inhibits the activity of this transport system; the initial rates of sodium-independent uptake of leucine, phenylalanine, and 2-aminonorborane-2-carboxylic acid are decreased by approximately one-third (average = 30%, n = 19) after incubation of HTC cells with 0.1 microM dexamethasone. This inhibition requires at least 15 h, reaching a maximum at 24 h of exposure of the cells to the hormone. Dexamethasone has an
asymmetrical
effect on sodium-independent amino acid transport in that exposure of the cells to the hormone does not inhibit the rates of outflow of leucine or phenylalanine from preloaded cells into medium without sodium. Inhibition of uptake is blocked by 0.1 mM cycloheximide and 4 microM actinomycin D, indicating the need for continuous protein synthesis for dexamethasone action.
Insulin
, which is known to partially reverse the inhibitory effect of dexamethasone on the A amino acid transport system in HTC cells, does not alter the action of dexamethasone on the L system. Previous investigations have demonstrated inhibition by dexamethasone of at least two distinct sodium-dependent amino acid transport activities in HTC cells. The data presented here, showing inhibition by the glucocorticoid of a sodium-independent transport activity, indicate that the effect of the hormone is independent of the energy source of the amino acid transport systems affected.
...
PMID:Inhibition of sodium-independent amino acid transport by dexamethasone in rat hepatoma cells. 670 44
The synthesis of six isomeric insulin dimers, linked through selected amino groups of the monomers by a dicarboxylic acid, is described. Symmetrical dimers were obtained by direct crosslinking of N,N-bis(methylsulfonyl-ethoxycarbonyl)insulins with the bis(p-nitrophenyl) esters of dicarboxylic acids. The synthesis of
asymmetrical
dimers was achieved by use of Msc-protected insulin active ester intermediates. N epsilon-B29,N epsilon B29'-
Insulin
dimers containing oxalyl, suberoyl and dodecanedioyl crosslinks were produced. N alpha B1,N epsilon B29'-
Insulin
dimers were suberoyl and dodecanedioyl crosslinks were synthesized; all other dimers were synthesized with suberoyl crosslinks. The positions of crosslinks were determined by sulfitolysis, tryptic digestion, electrophoresis and quantitative end-group determination. The dimers showed potencies between 1-60% that of insulin on a weight basis in stimulating lipogenesis in isolated fat cells. The potencies are considerably lower than the relative binding affinities determined with isolated fat cells.
...
PMID:Preparation and properties of covalently linked insulin dimers. 704 9
Insulin
(
Ins
) decreases Na+ delivery in the final urine. To determine whether the loop of Henle participates in this reduction, the effects of
Ins
were tested on cortical (CTAL) and medullary thick ascending limbs (MTAL) of the mouse nephron, microperfused in vitro. In the MTAL,
Ins
increased the transepithelial potential difference (Vt) and the Na+ and Cl- net reabsorption fluxes (JNa and JCl, respectively) in a dose-dependent manner, the threshold being below 10(-9) M. At 10(-7) M,
Ins
reversibly increased JNa and JCl, leaving Mg2+ and Ca2+ fluxes (JMg and JCa, respectively) close to zero. In the CTAL, 10(-7) M
Ins
reversibly increased Vt, JNa, JCl, JMg, and JCa. In CTAL segments perfused under
asymmetrical
conditions, with a bath-to-lumen-directed NaCl gradient (lumen 50 mM NaCl, bath 150 mM NaCl), addition of 10(-7) M
Ins
to the bath resulted in a large increase in JMg and JCa. Thus the responses of CTAL and MTAL to
Ins
are in all ways similar to those already reported for the adenosine 3',5'-cyclic monophosphate (cAMP)-generating hormones acting on these nephron segments. When 10(-10) M arginine vasopressin (AVP) and 10(-7) M
Ins
were used in combination, previous addition of one hormone to the bath potentiated the response to the second hormone. In cAMP accumulation experiments, performed in the presence of a phosphodiesterase inhibitor, the amounts of cAMP formed with 10(-7) M
Ins
and 10(-10) M AVP (which elicit maximal physiological responses in these segments) were in the same range.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Insulin stimulates Na+, Cl-, Ca2+, and Mg2+ transports in TAL of mouse nephron: cross-potentiation with AVP. 821 94
Epidemiological associations are now well-established between insulin resistance, the metabolic syndrome and worsened cardiovascular outcomes. A direct role of insulin in vascular biology is also now broadly recognized. Specifically, insulin can directly stimulate the action of nitric oxide synthase, an effect that can be demonstrated both in vitro and in vivo.
Insulin
resistance, whether present endogenously or produced experimentally through exposure to fatty acids, glucosamine or tumour necrosis factor alpha, is associated with impaired endothelium-dependent vasodilation and, specifically, with impaired insulin-stimulated vasodilation. A number of potential molecular explanations for these observations are being pursued, with evidence to support a number of concurrent pathogenic mechanisms. These include insulin resistance-associated reductions in nitric oxide availability due to increases in oxidative stress (not requiring the presence of hyperglycemia), reduced availability of tetrahydrobiopterin and excess levels of
asymmetrical
dimethylarginine. A strong body of evidence also supports an excess of the vasoconstrictor endothelin, which may result directly from hyperinsulinemia and/or indirectly due to a loss of the suppressive effects of nitric oxide on endothelin production and action. The current leading edge of investigations into the association between insulin-resistant states and vascular dysfunction involves the expanding repertoire of adipocyte-derived hormones. Of these, particular interest has been focused on adiponectin, which has both vascular and metabolic actions, and may contribute importantly to the connection between metabolism and vascular function. Progress along these novel lines of investigation will continue to expand the understanding of the mechanisms linking insulin resistance, the metabolic syndrome and vascular disease.
...
PMID:Insulin resistance, metabolic syndrome and vascular diseases: update on mechanistic linkages. 1530 8
In the context of the hypercatabolic response to stress, critically ill patients reveal hyperglycemia and elevated levels of
asymmetrical
-dimethylarginine (ADMA), an endogenous inhibitor of nitric oxide synthases. Both hyperglycemia and elevated ADMA levels predict increased morbidity and mortality. Tight glycemic control by intensive insulin therapy lowers circulating ADMA levels, and improves morbidity and mortality. Methylarginines are released from proteins during catabolism. ADMA is predominantly cleared by the enzyme dimethylarginine-dimethylaminohydrolase (DDAH) in different tissues, whereas its symmetrical isoform (SDMA) is cleared via the kidneys. Therefore, glycemic control or glycemia-independent actions of insulin on protein breakdown and/or on DDAH activity resulting in augmented ADMA levels may explain part of the clinical benefit of intensive insulin therapy. Therefore, we investigated in our animal model of prolonged critical illness the relative impact of maintaining normoglycemia and of glycemia-independent action of insulin over 7 d in a four-arm design on plasma and tissue levels of ADMA and SDMA, on proteolysis as revealed by surrogate parameters as changes of body weight, plasma urea to creatinine ratio, and plasma levels of SDMA, and on tissue DDAH activity. We found that ADMA levels remained normal in the two normoglycemic groups and increased in hyperglycemic groups. SDMA levels in the investigated tissues remained largely unaffected. The urea to creatinine ratio indicated reduced proteolysis in all but normoglycemic/normal insulin animals. DDAH activity deteriorated in hyperglycemic compared with normoglycemic groups.
Insulin
did not affect this finding independent of glycemic control action. Conclusively, maintenance of normoglycemia and not glycemia-independent actions of insulin maintained physiological ADMA plasma and tissue levels by preserving physiological DDAH activity.
...
PMID:Glycemic control modulates arginine and asymmetrical-dimethylarginine levels during critical illness by preserving dimethylarginine-dimethylaminohydrolase activity. 1829 89
The aim of this study was to evaluate the effect of a six-month lifestyle intervention on ghrelin and
asymmetrical
dimethylarginine (ADMA) in obese Mexican adolescents. A total of 65 obese Mexican adolescents aged 10-16 years completed a six-month lifestyle intervention. Anthropometric and biochemical parameters were assessed at baseline and at six months. Twenty normal-weight adolescents were also evaluated at baseline.
Insulin
resistance (IR) was determined by the homeostasis model assessment of IR (HOMA-IR). Ghrelin and ADMA were determined by enzyme-linked immunosorbent assay. Obese adolescents presented significantly higher triglycerides, cholesterol, glucose, insulin, HOMA-IR, and ADMA levels, while ghrelin was significantly lower. The lifestyle intervention led to a significant improvement in HOMA-IR, ghrelin, and ADMA in the whole studied obese subjects. ADMA and ghrelin levels were associated with BMI and IR components. According to the value of HOMA-IR, the obese subjects were divided into subjects with or without IR, no difference in ghrelin and ADMA was observed in these two subgroups. After intervention, the obese with IR showed increased ghrelin and decreased ADMA, while the obese without IR only showed improvement in ghrelin. The multiple linear regression analysis revealed that the changes of systolic blood pressure were the only predictor for the changes of ghrelin in the obese with IR. Our study demonstrated the increase of ADMA and the decrease of ghrelin in obese adolescents. Lifestyle intervention improved insulin resistance, decreased ADMA, and increased ghrelin in obese subjects with IR although no significant weight loss was observed.
...
PMID:Changes in ghrelin and asymmetrical dimethylarginine in obese Mexican adolescents after six-month lifestyle intervention. 2305 13
