Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Reproductive performance was studied in transgenic males from lines expressing and transmitting four hybrid genes: mouse metallothionein-I/human growth hormone (GH) (MT/
hGH
), MT/
hGH
placental variant (MT/
hGH
.V), MT/bovine GH (MT/bGH) and phosphoenolpyruvate carboxykinase/bGH (PEPCK/bGH). Each male was exposed to three normal females for 1 week and to three different normal females for another week. Females were examined for vaginal plugs and necropsied on day 14 of pregnancy. Males were killed for analysis of organ weights, numbers of testicular spermatids, numbers of
epididymal
sperm and measurements of plasma glucose concentration. Fertility of MT/
hGH
and MT/
hGH
.V transgenic males was significantly lower than in normal males, primarily because most males failed to impregnate any females. In females that became pregnant, the numbers of corpora lutea, total fetuses and live fetuses did not differ from those in females mated to normal (nontransgenic) males. Fetal crown-rump length on day 14 of pregnancy did not differ between litters sired by normal or by transgenic males. Weights of testes and seminal vesicles were significantly greater in all four types of transgenic male, but daily sperm production per unit weight (g-1) of testis was not affected and
epididymal
sperm reserves were either normal or slightly higher than normal. Plasma glucose concentrations were significantly higher in PEPCK/bGH mice than in other mice. Average or individual reproductive performance of transgenic males from the various lines did not correlate with any of the parameters examined except for significantly heavier seminal vesicles in MT/
hGH
and MT/
hGH
.V males than in normal males; these transgenic males exhibited a high incidence of infertility. Since
hGH
and
hGH
.V, but not bGH, are lactogenic in rodents, it was concluded that chronic stimulation of GH and prolactin receptors by ectopically produced human GHs in transgenic mice compromises male fertility by an unknown mechanism. Reduced fertility of transgenic males with MT/
hGH
or MT/
hGH
.V hybrid genes is due to failure to inseminate or impregnate females rather than to reduced numbers of spermatozoa or gross changes in the male reproductive system.
...
PMID:Effects of expression of human or bovine growth hormone genes on sperm production and male reproductive performance in four lines of transgenic mice. 162 26
Genes for normal human pituitary GH (hGH-N) and the GH variant (hGH-V) were expressed in stably transfected mouse mammary cells. The biological properties of hGH-N and hGH-V secreted into the medium were examined using rat adipocytes or
epididymal
fat segments. Methionyl-
hGH
produced in E. coli served as a reference standard. The three preparations were quite similar in their ability to bind specifically to intact fat cells and were virtually indistinguishable in their ability to increase glucose oxidation (an insulin-like response), induce refractoriness to insulin-like stimulation, and induce lipolysis in the presence of glucocorticoid. We conclude that placentally expressed hGH-V has a spectrum of metabolic activity comparable to pituitary hGH-N and may contribute to regulation of carbohydrate and lipid metabolism during pregnancy.
...
PMID:Human growth hormone variant produces insulin-like and lipolytic responses in rat adipose tissue. 191 67
Adipocytes isolated from the
epididymal
fat pads of normal rats specifically bound [125I]human GH [( 125I]
hGH
). Preincubation of cells with 20 micrograms/ml cycloheximide, an inhibitor of protein synthesis, produced a progressive loss of ability to bind [125I]
hGH
specifically. Loss of binding sites with time followed first order kinetics and had a half-time of about 45 min regardless of whether GH was present or absent during treatment with cycloheximide. Nonspecific binding of labeled hormone was unchanged by cycloheximide. Similar results were obtained when adipocytes were incubated with 200 micrograms/ml puromycin, another inhibitor of translation, but incubation with 5 micrograms/ml actinomycin D, an inhibitor of transcription, for 2.5 h had no effect on the binding of [125I]
hGH
by adipocytes. The findings are not attributable to cell death, since oxidation of [U-14C] glucose to 14CO2 and binding of [125I]insulin were unaffected in replicate cell populations exposed to the same treatments. Diminished binding could not be attributed to an effect of cycloheximide to hasten the degradation of receptor-bound
hGH
. Treatment of adipocytes with 0.1 mg/ml trypsin for 10 min virtually abolished their ability to bind [125I]
hGH
specifically, but binding capability gradually returned after removal of trypsin and was nearly restored to pretrypsin levels by 2 h. Addition of cycloheximide to the incubation medium after removal of trypsin completely prevented recovery of binding capability. Covalent binding of [125I]
hGH
to its receptors with disuccinimidyl suberate followed by sodium dodecyl sulfate-gel electrophoresis and autoradiography of proteins isolated from adipocyte membranes revealed three specifically labeled bands corresponding to mol wt of 250-300, 130, and 56 kilodaltons. Treatment of adipocytes with cycloheximide before cross-linking resulted in a proportional reduction in all three labeled bands, suggesting a similar half-life for all three entities. Similarly, all three labeled entities reappeared in parallel as adipocytes recovered from treatment with trypsin. The data strongly suggest that receptors for GH turn over rapidly on the surface of adipocytes and that ongoing protein synthesis is required to maintain binding capacity. The data do not permit distinction between rapid turnover of the receptor proteins themselves and a short-lived protein(s) which might be required to insert the receptors into the membrane.
...
PMID:Turnover of growth hormone receptors in rat adipocytes. 298 62
Growth hormone (GH) binding and the effect of GH and insulin on glucose metabolism in rat adipocytes were studied at various time periods following hypophysectomy. Male rats were hypophysectomized at 33-34 days of age. After 6 h, 20 h or 3, 7 and 14 days adipocytes were prepared from
epididymal
fat pads by mild collagenase digestion (0.5 mg X ml-1, 60 min, 37 degrees C). Glucose metabolism was studied by determining the production of CO2 from [14C]glucose and the incorporation of [14C]glucose into lipids. GH binding was measured in cell aliquots using [125I]
hGH
. No difference in GH binding to adipocytes was observed between control rats and rats hypophysectomized or sham-operated 6 h earlier. GH binding was significantly decreased 20 h after hypophysectomy and declined further with time after hypophysectomy. Adipose tissue from normal rats is usually refractory to the insulin-like effect of GH. Adipocytes isolated from normal rats were, however, usually responsive to GH immediately after cell isolation, suggesting that refractoriness to the insulin-like effect of GH was lost during the time required for the preparation of adipocytes. The magnitude of the response to GH in adipocytes progressively declined with time after hypophysectomy. The decreased responsiveness to GH with time after hypophysectomy parallelled the decrease in GH binding. The results suggest that the pituitary, directly or indirectly, is necessary for the maintenance of GH binding sites in adipose tissue and that these binding sites are related to the insulin-like effect of GH.
...
PMID:Changes in growth hormone binding and metabolic effects of growth hormone in rat adipocytes following hypophysectomy. 299 Jan 66
Hypophysectomy decreased the capacity of adipocytes isolated from
epididymal
fat to bind [125I]human GH [( 125I]
hGH
) specifically without changing the apparent affinity for
hGH
. Specific binding of
hGH
by adipocytes of both normal and hypophysectomized rats appeared saturated when incubated with 75-80 ng/ml or higher concentrations of GH regardless of whether binding was studied for 2 h at 37 C or for 16 h at 0 C. Maximum binding of
hGH
by normal adipocytes was approximately 0.45 ng/10(6) cells, and that by adipocytes of hypophysectomized rats ranged from 0.15-0.25 ng/10(6) cells. In cells of both normal and hypophysectomized rats, only 25-30% of the hormone specifically bound at 37 was removed by digestion with trypsin, and about 75% was displaced by incubation with 5 M magnesium chloride, suggesting that these adipocytes internalized a significant fraction of bound hormone and that hypophysectomy did not alter the extent of internalization. Previously bound hormone was lost from normal adipocytes with a half-time of about 32 min and from adipocytes of hypophysectomized rats with a half-time of about 45 min, suggesting that hypophysectomy slowed the rate of processing bound hormone. To determine which pituitary hormone(s) might be required to maintain GH binding, we measured the binding of [125I]
hGH
at 3 or 30 ng/ml by fat cells prepared from hypophysectomized rats after various treatment regimens. Administration of bovine GH ip at a dose of 10 micrograms/rat every 4 h for 24 h doubled the binding of [125I]
hGH
by adipocytes prepared 4 h after the last injection. Similar results were obtained in fat cells examined 4 h after only one injection of 60 micrograms bovine GH to rats hypophysectomized 2-4 weeks previously. When binding was measured 16-24 h after GH administration, there was no apparent effect on restoration of binding even after treatment with 100 micrograms GH/day for up to 6 days, suggesting that the effects of GH in maintaining receptor number are transient. In accord with the apparently short-lived ability of GH to maintain its receptors on fat cells, GH binding was significantly reduced in adipocytes obtained form both hypophysectomized and sham-operated rats as early as 4 h after surgery, and by 8 h after surgery, declined to a level as low as that in adipocytes of chronically hypophysectomized rats. Twenty-four hours after surgery, GH binding by cells of sham-operated animals returned to normal. Fasting for 24 h also reduced GH binding by adipocytes of normal rats to a level comparable to that in adipocytes of fed hypophysectomized animals.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Growth hormone maintains its own receptors in rat adipocytes. 301 59
Iodinated human GH [( 125I]
hGH
) binds to both specific and nonspecific sites on the surface of adipocytes isolated from the
epididymal
fat of normal rats. When adipocytes were incubated at 37 C with 1 nM [125I]
hGH
, specific binding increased for 30-60 min and thereafter remained approximately constant as long as the hormone was present in the medium. When cells that had bound [125I]
hGH
were removed from the incubation medium and reincubated in hormone-free medium at 37 C, half of the specifically bound 125I was released into the medium about every 30 min, and about half of the nonspecifically bound 125I was released in about 60 min. These rates were seen regardless of whether the time allowed for hormone binding was 15, 30, or 60 min. About 90% of the 125I released was soluble in 5% trichloroacetic acid and was in the form of iodotyrosine. The rate of 125I release from specific binding sites decreased by a factor of 4 when the temperature was lowered from 37 to 17 C. Replacement of some of the sodium chloride in the buffer with 25 mM ammonium chloride had little or no effect on the amount on 125I that bound to cells when [125I]
hGH
was present in the medium, but virtually completely blocked the release of 125I from cells transferred to hormone-free medium. Ammonium chloride also significantly reduced both the release of 125I from nonspecific binding sites and the amount of 125I recovered in trichloroacetic acid-soluble form. Cloroquine, leupeptin, or colchicine nearly doubled the specific binding of [125I]
hGH
after 180 min and markedly slowed the release of 125I when cells were transferred to hormone-free medium. All of these agents also significantly reduced the rate of release of 125I from nonspecific binding sites. Incubation of adipose tissue from hypophysectomized rats with ammonium chloride, leupeptin, or colchicine failed to alter the ability of GH to increase glucose oxidation, induce refractoriness, or promote lipolysis in the presence of theophylline. We conclude that GH binds virtually irreversibly to both specific and nonspecific sites on the adipocyte surface and is then internalized and degraded in the lysosomones. These events appear to be independent of the cellular processes that lead to expression to GH responses.
...
PMID:Binding and degradation of [125I]human growth hormone in rat adipocytes. 674 63
