Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Factors other than adrenocorticotropic hormone (ACTH) are thought to influence fetal adrenal steroidogenesis during primate pregnancy. Therefore, we determined the effects of prolactin (Prl), growth hormone (GH), and human chorionic gonadotropin (hCG) as well as ACTH on steroid secretion by collagenase-dispersed baboon fetal adrenal cells. Adrenal glands were obtained from seven baboon (Papio anubis) fetuses following cesarean section at Day 100-107 of gestation (term = Day 184). Tissue was minced with a fine scissors and cells were dispersed with 0.2% collagenase, then washed with Medium 199 containing penicillin/streptomycin. Cells (0.5 X 10(4)) were placed in 4 ml Medium 199 with or without 10 nmol ovine Prl, ovine GH, or ACTH, or 50 nmol hCG. After 18 h incubation (37 degrees C), cells were separated by centrifugation and the quantities of cortisol (F), dehydroepiandrosterone (DHA), and DHA-sulfate (DHAS) secreted into the medium were determined. In controls, DHA secretion [224 +/- 96 ng/(24 h X 10(5) cells] was greater (P less than 0.05) than that of DHAS (20 +/- 12) and F (14 +/- 12). Adrenocorticotropic hormone, Prl, and GH stimulated (P less than 0.05) DHA secretion by 370% +/- 71%, 215% +/- 61%, and 292% +/- 73%, respectively; hCG was not effective. Due primarily to the relatively low secretion rates, DHAS and F secretion were not altered by hormonal treatment. Moreover, addition of 20 nmol progesterone to the medium in the presence or absence of ACTH did not influence F production. These findings indicate that the baboon fetal adrenal at midgestation does not utilize placental progesterone for F synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of baboon fetal adrenal androgen production by adrenocorticotropic hormone, prolactin, and growth hormone. 299 43

The transplantable hormone-responsive rat mammary adenocarcinoma 13762NF was dissociated with collagenase and hyaluronidase. Cells were cloned directly or lines were established from mass cultures and cells from these lines were cloned. Clones differed in cellular morphology, colony morphology on plastic or in collagen gel, growth rate, growth response to hormones, and hormone receptor levels. Growth response to prolactin, estradiol, progesterone, cortisol, and epidermal growth factor (EGF) was determined by culturing the cells within collagen gel and using a serum-free medium base of DME/F12 (1:1) with insulin, linoleic acid, and BSA. The clones varied in their hormone responses, with all 20 of the clones tested responding to cortisol in combination with EGF. Some clones would respond to EGF, cortisol, or progesterone when used alone. None of the clones tested could be stimulated by prolactin or estradiol. Receptor levels for estradiol, progesterone, glucocorticoids, and EGF were assessed in 3 selected clones differing in their hormone responsiveness. Receptor levels appeared to correlate with hormonal sensitivity. Selected clones transplanted into female F344 rats produced carcinomas with histopathologies similar to the original tumor.
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PMID:Heterogeneity in the hormonal responsiveness of clones derived from the 13762NF rat mammary tumor. 300 10

The present study determined if estrogen modulates the responsivity of the adrenal gland of the baboon fetus to tropic hormones such as adrenocorticotropic hormone and prolactin. Adrenal glands were obtained from seven baboon fetuses at midgestation (days 100 to 105). Adrenal cells were dispersed in medium 199 with 0.2% collagenase for 10 minutes at 37 degrees C. Approximately 10(5) cells/4.0 ml of medium 199 were incubated for 24 hours at 37 degrees C with 10 nmol of adrenocorticotropic hormone or 10 nmol of ovine prolactin in the presence or absence of 10(-5) or 10(-6) mol/L of estradiol. The major steroid formed and secreted into the medium was dehydroepiandrosterone. Mean +/- standard error basal formation of dehydroepiandrosterone was 176 +/- 64 ng/10(5) cells/24 hours. Dehydroepiandrosterone formation was increased (p less than 0.05) 3.5-fold and five-fold by adrenocorticotropic hormone and prolactin, respectively. Estradiol at 10(-5) mol/L prevented the response in dehydroepiandrosterone obtained with adrenocorticotropic hormone alone. Estradiol alone had no effect on dehydroepiandrosterone. The results suggest that estrogen modulates the regulatory effects of adrenocorticotropic hormone on dehydroepiandrosterone formation by the adrenal gland of the baboon fetus.
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PMID:Effect of estrogen on dehydroepiandrosterone formation by baboon fetal adrenal cells in vitro. 303 61

The morphological characteristics of bovine pituitary cells separated by a rapid enrichment procedure are described. Single-cell suspensions were prepared from pituitary glands of steers by use of a collagenase technique and separated by discontinuous gradient centrifugation. The separation of prolactin- and growth hormone-containing cells was assessed by radioimmunoassay of hormone content and immunocytochemistry, and the distribution of fibroblasts assessed after establishing cell cultures. Morphometric analysis of the fine structure of two fractions respectively enriched and depleted in the proportion of immuno-cytochemically-identified lactotrophs was performed after labelling with anti-prolactin antiserum coupled to immunogold complex. Cells recovered from the higher-density fraction were more highly granulated, suggesting that this was a major characteristic determining separation. Cells labelled for prolactin could not be distinguished from unlabelled cells on the basis of their granule size range, but unlabelled cells had a significantly greater coefficient of variation. These data suggest that granule density and distribution, but not granule size per se, are useful characteristics for the identification of bovine lactotrophs.
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PMID:Morphological characterisation of lactotrophs separated from the bovine pituitary by a rapid enrichment technique. 319 Aug 29

Mammary epithelium from five Holstein cows was transplanted as subcutaneous slices and as collagenase dissociated epithelial cells into mammary gland free-fat pads of athymic nude mice. Two weeks posttransplantation, mice were injected daily for 20 d with saline, 17 beta-estradiol plus progesterone, or 17 beta-estradiol plus progesterone plus growth hormone plus prolactin. In a second experiment, mice were treated with saline, cholera toxin, 17 beta-estradiol (subcutaneous pellet of 2 mg 17 beta-estradiol and 38 mg cholesterol), or 17 beta-estradiol plus cholera toxin. In each experiment mammary slices maintained normal morphology. Growth of epithelium within slices ([3H]thymidine autoradiography) was increased 167% by estradiol plus progesterone, 264% by estradiol plus progesterone plus growth hormone plus prolactin, 90% by estradiol, 60% by cholera toxin, and 137% by estradiol plus cholera toxin. Cells injected into mammary gland free fat pads formed hollow, multilayered, spherical "organoids." Organoid area was increased 47% by estradiol plus progesterone, 189% by estradiol plus progesterone plus growth hormone plus prolactin, 72% by estradiol, 86% by cholera toxin and 74% by estradiol plus cholera toxin. Thus, athymic nude mice appear suitable for the ex vivo in vivo study of bovine mammary epithelial growth and differentiation.
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PMID:Transplantation of bovine mammary tissue to athymic nude mice: growth subcutaneously and in mammary gland-free fat pads. 372 34

The effects of oestradiol and prolactin (Prl) on progesterone production by dispersed monkey luteal cells were examined. Corpora lutea were recovered from monkeys 5-7 days following ovulation induction during the puerperium. The tissue was dispersed by collagenase and mechanical disruption. The resulting cells were incubated in Dulbecco's modified Eagle's medium, containing the hormones to be tested, for 3 h at 37 degrees C. The medium was removed and assayed for progesterone by RIA. Human luteinizing hormone (hLH) produced a significant, dose-related increase in progesterone secretion that was comparable to that produced by dibutyryl cyclic adenosine monophosphate. Human follicle stimulating hormone (hFSH) had no effect upon progesterone production by the luteal cells. Oestradiol (100-10 000 pg/ml) produced a significant, dose-related decrease in both basal and hLH-stimulated progesterone production. Ovine Prl (oPrl) had neither a stimulatory nor an inhibitory effect upon basal progesterone secretion at doses up to 1000 ng/ml. Further, oPrl did not affect hLH-stimulated progesterone production. We conclude that oestradiol is a potent inhibitor of luteal progesterone secretion in vitro and that Prl does not inhibit progesterone production in the primate corpus luteum under these experimental conditions.
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PMID:Effects of oestradiol and prolactin on progesterone production by rhesus monkey luteal cells in vitro. 391 1

Throughout life, the ovarian surface epithelium (OSE) undergoes morphogenetic changes that may be hormonally regulated. To investigate this possibility, a population of cells morphologically identical to native OSE cells was isolated from estrous rabbits with collagenase, unit gravity sedimentation, and trypsin-EDTA. Cells were incubated with various concentrations of protein hormones in serum-rich medium or in a chemically defined medium containing fibronectin. Tritiated thymidine was added 24 h before interruption of cultures. Growth-promoting effects of tested hormones were more pronounced and consistent in serum-free cultures. Under these conditions, human chorionic gonadotropin (10,000 mIU/ml) caused a 2.8-fold increase in cell number and a 3.4-fold stimulation of thymidine incorporation. Luteinizing hormone (NIAMDD-oLH-24, 1.0 micrograms/ml) and follicle-stimulating hormone (NIADDK-oFSH-16, 1.0 micrograms/ml) produced, respectively, a 1.7-fold and 1.5-fold increase in cell proliferation, and over 1.4-fold and 1.3-fold stimulations of thymidine uptake. When used together, no growth stimulation by these gonadotropins was seen. Slight but significant increases in cell number (1.4-fold) and in radiolabel incorporation (1.3-fold) were observed with prolactin (NIADDK-oPrl-16, 10 ng/ml). These data indicate that some protein hormones promote the growth of OSE cells. This property may be important in regulating these cells during normal and pathologic states.
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PMID:Growth effects of protein hormones on cultured rabbit ovarian surface epithelial cells. 393 84

A collagenase dispersed cell suspension from PMSG-hCG primed immature rats responded to exogenously added hCG, cholera enteroxin, prolactin, and 8-Bromocyclic-AMP with increase in progesterone production in a dose dependent manner, and this stimulation was augmented by the plasma lipoprotein fractions hHDL and hLDL. The responsiveness to low doses of prolactin was not apparent when lipoprotein fractions were not included in the assay mixture. When the incubation mixture contained either LDL or HDL, the stimulatory effect of prolactin on progesterone production was evident at 5 and 10 micrograms prolactin/ml of the incubation mixture. Progesterone production, both basal and hormone stimulated, was maximum on day 7 of pseudopregnancy. Although the extent of hCG and prolactin stimulation of progesterone production and its potentiation by lipoprotein fractions was observed to be higher on days 3 and 5 than that seen on day 7, the net amount of progesterone produced was highest on day 7. The basal as well as hormone and lipoprotein stimulated progesterone production started to decline after day 7, reaching a nadir on day 14. These experiments show that prolactin is effective in stimulating progesterone production by rat luteal cells in vitro and that lipoprotein fractions, LDL and HDL further potentiate this response. This study further suggests that it is important to include LDL or HDL as a source of cholesterol for in vitro experiments in which the steroidogenic response of luteal cells to exogenous stimuli is tested.
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PMID:Lipoprotein augmentation of human chorionic gonadotropin and prolactin stimulated progesterone synthesis by rat luteal cells. 397 30

We have previously demonstrated that hGH stimulates DNA synthesis in cultured chondrocytes in the absence of serum. The present study is concerned with the effects of hGH on proteoglycan synthesis by cultured chondrocytes. Chondrocytes were isolated from rat rib growth cartilage by collagenase digestion, plated in plastic dishes, transferred to serum-free MCDB 104 medium, and incubated for 24 h to establish growth arrest. The cultures were then preincubated for 0-24 h with various concentrations of hGH and ovine prolactin (oPrl) and finally pulse-labelled for 30 min with radioactive sulphate in the presence of hormone. hGH, but not oPrl, stimulated sulphate incorporation with an apparent maximum at 50 ng/ml (approximately 170%). The stimulatory effect was apparent after 2 h and maximal after 3h preincubation. After 12 h the stimulatory effect had decreased to insignificant levels. Qualitative analysis of isolated proteoglycans indicated that the stimulation of sulphate incorporation by hGH is exerted at the level of protein synthesis with little effect on glycosylation and sulphation. Further experiments are required to demonstrate whether the stimulatory effect on proteoglycan synthesis is a specific phenomenon or represents one aspect of a general stimulation on cell metabolism in preparation for DNA synthesis.
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PMID:Effect of human growth hormone on proteoglycan synthesis in cultured rat chondrocytes. 398 61

We investigated the direct effects of bromocriptine (BR) on both basal and hCG-stimulated testosterone production by rat collagenase-dispersed Leydig cells. In a final volume of 2.2 ml, 2.10(6) Leydig cells were incubated at 33 degrees C for 3 h either alone or with various amounts of hCG (1. 10. 10(2). 10(3). 10(4) mUI/vial) and BR (1.5 10(-9), 1.5 10(-7), 1.5 10(-5) M); BR was dissolved in 20 microliters of ethanol. BR (1.5 10(-5) M) decreased significantly both basal and hCG-stimulated testosterone production whereas at lower doses, BR had no effect. These results suggest that the dopamine itself may regulate rat Leydig cell function and that there is room for criticism of BR-induced hypoprolactinemia as an experimental model to study the effect of prolactin on the androgenic function.
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PMID:Bromocriptine, a dopamine agonist, directly inhibits testosterone production by rat Leydig cells. 400 69


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