Somatogenic Receptors of Rat Liver: Regulation by Insulin*

Baxter, Robert C.; Bryson, Janet M.; Turtle, John R.

doi:10.1210/endo-107-4-1176

Cited by 224 publications

(105 citation statements)

References 32 publications

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“…Regulation of rat liver GH receptors by testosterone has not been documented, although it has been reported that females have more receptors than males [1,12,13]. Our studies confirm that testosterone decreases PRL receptors, and they establish a similar role for testosterone on GH binding in the livers of female rats.…”

Section: Discussionsupporting

confidence: 80%

“…Although the nonspecific binding of bGH tracer was high relative to the specific binding, this figure is comparable to that seen in other published studies of bGH binding to microsomal membranes [1,14], homogenates [5] and hepatocyte pellets [12]. The bGH for iodination (S-…”

Section: (N =8)supporting

confidence: 87%

“…Comparison with control animals p < 0.05. Comparison with diabetic animals sured on 200 gg of membrane protein, using bovine GH (bGH) and ovine PRL (oPRL) respectively as radioligands as reported earlier [1,2]. Briefly, for either receptor type incubations were performed at 22 °C in 1.5 ml polystyrene centrifuge tubes for 16 h in a final volume of 0.3 ml of Tris-HC1 (25 mmol/1), CaCI2 (10 retool/l) buffer containing 0.1% bovine albumin, pH 7.4.…”

Section: (N =8)mentioning

confidence: 99%

“…We have previously reported that both growth hormone (GH) and prolactin (PRL) receptors in liver microsomal membranes decreased in number, but not affinity, in female rats with experimental diabetes induced by streptozotocin [1,2]. Insulin treatment restored these receptors to normal levels.…”

mentioning

confidence: 99%

“…In contrast to prolactin receptors, little is known about the regulation of G H receptors in rat liver by sex steroids, except that livers from female animals are known to have more receptor sites that those from males when measured in either whole hepatocytes [12] or microsomal membrane preparations [1,13].…”

mentioning

confidence: 99%

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Adrenal involvement in the diabetes-induced loss of growth hormone and prolactin receptors in the livers of female rats

Bryson

Baxter

1986

Diabetologia

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Summary. Streptozotocin-induced diabetes causes a decrease in growth hormone and prolactin receptors in the livers of female rats, and in the serum concentration of somatomedin-C/ insulin-like growth factor-I, concomitantly with an increase in the serum testosterone levels. In this study, a possible role for adrenal androgens in the loss of receptors was examined. Rats were adrenalectomised bilaterally 3 days after the induction of diabetes with streptozotocin (100mg/kg intravenously), and livers were removed 3 days later. Adrenalectomy had no effect on binding of ovine prolactin or bovine growth hormone to liver microsomal membranes from non-diabetic rats, but in diabetic rats it entirely abolished the 56% decrease in prolactin binding and significantly reversed the 66% decrease in growth hormone binding and the parallel fall in serum levels of somatomedin-C/insulin-like growth factor-I (p<0.05). Adrenalectomy also prevented the diabetes-induced rise in serum testosterone. Daily injection of testosterone to normal and diabetic rats for 12 days significantly reduced both prolactin and growth hormone binding (p< 0.001), with the effect of diabetes being additive upon the testosterone effect. Implantation of testosterone-filled silastic capsules at the time of adrenalectomy (i. e. for 3 days) did not prevent the adrenalectomy-induced restoration of both growth hormone and prolactin receptors. The resulting high serum testosterone level did not reduce binding to growth hormone receptors in control rats over the 3 day period, and caused no further decrease in diabetic rats. However, binding to prolactin receptors was reduced by 47% in control animals with no further loss in diabetic animals (p < 0.001). Adrenalectomy prevented the loss of prolactin receptors in both testosterone-treated and diabetic rats. These results indicate that, whether or not the rise in testosterone of adrenal origin contributes to the receptor loss in diabetes, the effect also depends on another factor of adrenal origin.

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Section: Discussionsupporting

confidence: 80%

Section: (N =8)supporting

confidence: 87%

Section: (N =8)mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Adrenal involvement in the diabetes-induced loss of growth hormone and prolactin receptors in the livers of female rats

Bryson

Baxter

1986

Diabetologia

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Liver Receptors for Regulatory Peptides

Rosselin

1989

Comprehensive Physiology

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Membrane traffic at the hepatocyte’s sinusoidal and canalicular surface domains

Evans¹

1981

Hepatology

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Traffic in the environs of regions of the hepatocyte's plasma membrane is heavy. A fuller understanding of the nature and control of this membrane traffic depends on the appreciation of the hepatocyte's plasma membrane. This conglomerate consists of a receptor-rich and metabolically dynamic blood-sinusoidal domain which is separated from the bile canalicular domain by a lateral domain which participates in cell-cell interactions (1, 2). The rapid receptor-mediated endocytotic uptake and processing of membrane receptor-ligand complexes occurring against a background of hepatic secretion is a key step in understanding relationships between intracellular membrane compartments and the maintenance of differentiated plasma membrane domains. The fate of a wide range of interiorized ligands appears to be decided upon transfer to a Golgi-endoplasmic reticulum lysosomal (GERL) locus where a processing decision is made leading to release of ligands in an intact form into sinusoids or bile canaliculi, or to degradation. This review discusses properties of receptor-binding sites for hormones and metabolites which are located primarily at the sinusoidal plasma membrane, the biogenesis of this membrane, and the various traffic routes of membrane-ligand complexes traversing the hepatocyte interior.THE HEPATOCYTE'S RECEPTOR-RICH SINUSOIDAL PLASMA MEMBRANE DOMAIN A large number of specific-binding sites for hormones and metabolites are at the sinusoidal aspect of the hepatocyte's surface. So extensive has the list of receptorbinding moieties become ( Table 1) that probably few molecules cross the plasma membrane barrier without the appropriate translocating signals which are recognized by membrane receptors. Receptor-mediated binding and subsequent uptake of membrane ligand complexes have achieved increasing importance as compared to absorptive-passive transfer into the hepatocyte. The paracellular shunt pathway into bile is confined mainly to small ions and water (3). Most of the binding sites in Table 1 are accounted for by discrete receptors which invite isolation and molecular characterization. Some hormones, e.g., prolactin and somatotropin, probably bind to the same receptor (4, 5). Studies of the action on liver metabolism of parathyroid hormone suggest a role for nonparenchymal liver cells; processing by peptide cleavage may be required for presentation of the correct polypeptide hormone fragment to the hepatocyte surface receptor (6). Intercellular metabolic cooperation between hepatocytes and surrounding cells has also been suggested in the uptake of carcinoembryonic antigen (7).Because steroid hormones are lipophilic compounds which could be taken up by diffusion, it may appear surprising that hepatocyte plasma membrane steroid receptor sites have been identified in addition to those in cytosol and nucleus (8). These high-affinity estrogenbinding sites are clearly distinguished from sites in estrogen degradation and modification. Plasma membrane steroid receptors are probably widely distributed on target tissues; e.g., ...

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Somatogenic Receptors of Rat Liver: Regulation by Insulin*

Cited by 224 publications

References 32 publications

Adrenal involvement in the diabetes-induced loss of growth hormone and prolactin receptors in the livers of female rats

Adrenal involvement in the diabetes-induced loss of growth hormone and prolactin receptors in the livers of female rats

Liver Receptors for Regulatory Peptides

Membrane traffic at the hepatocyte’s sinusoidal and canalicular surface domains

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