Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The presence of alkaline phosphatase (EC 3.1.3.1) activity has been demonstrated in nuclei of rat ventral prostate. This enzyme activity remained after washing of isolated nuclei with 0.5% Triton X-100; an acid phosphatase initially present with the nuclear fraction was removed by this treatment. The nuclear alkaline phosphatase, examined by utilizing p-nitrophenyl phosphate as substrate, had a pH optimum of 9.5-10.3, and a broad substrate specificity: p-nitrophenyl phosphate greater than phosphothreonine greater than beta-glycerophosphate greater than phosphoserine. The nuclear phosphatase was sensitive to denaturation by heat or urea treatments and was also inhibited by Pi, L-phenylalanine, homoarginine, dithiothreitol, and EDTA. The EDTA-inhibited enzyme was maximally reactivated by Zn2+, although Mg2+, or Ca2+ were also effective at somewhat higher concentrations. Orchiectomy of adult rats resulted in an increase in the nuclear alkaline phosphatase activity (2-3-fold at 24 or 48 h postorchiectomy). A decline in the protein: DNA ratio also occurred following orchiectomy, but the increase in phosphatase specific activity was evident whether expressed per unit of protein or per unit of DNA. Testosterone replacement following orchiectomy abolished the increase in nuclear phosphatase activity. The results suggest that the prostatic nuclear alkaline phosphatase may be involved in events related to inactivation of the prostate nucleus following androgen deprivation.
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PMID:Presence and androgen control of an alkaline phosphatase in the nucleus of rat ventral prostate. 0 31

Cells of sarcoma 180 and of Ehrlich's carcinoma were maintained by serial transplantation in male and female Swiss mice. Either estrogen, progesterone, or testosterone were injected im at doses of 1 mg/mouse. Ascitic fluid was aspirated at intervals of 1, 3, 6, 24, and 48 hours following hormone injections. Enzyme activities were analyzed by subjective grading according to the intensity of staining reaction. Estrogen produced enhancement of alkaline phosphatase activity in both types of cells in both sexes of mice. Progesterone produced increased alkaline phosphatase activity in both types of cells from female hosts but an inhibitory effect in male hosts' cells. Testosterone produced no change in enzyme activity in tumor cells of female hosts but in male hosts it inhibited enzyme activity of sarcoma 180 cells and activated activity in carcinoma cells. The effect of all 3 hormones on acid phosphatase activity was activation. With adenosine triphosphatase, estrogen stimulated the activity in both types of tumor in both sexes. Progesterone stimulated cells from male hosts with little or no effect on cells from female hosts. This enzyme was resistant to testosterone. Succinate dehydrogenase activity under similar conditions was different. Estrogen reduced this activity and progesterone produced some inhibition of activity. Testosterone inhibited the sarcoma cells but had no effect on carcinoma cells of either sex. Others have shown that sex hormones affect the enzyme activities beyond the target tissues, particularly in the liver, kidney, and pancreas. Different responses of the enzymes seemed to depend on the endogenous hormonal status of the mice.
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PMID:Enzymatic responses of transplanted tumour cells towards estrogen, progesterone and testosterone. 13 8

The ontogeny of alkaline phosphatase in the bursa of Fabricius was studied by histochemical and biochemical methods. According to the quantitative determinations, the activity of alkaline phosphatase increased from the 11th to 17th day of incubation--that is, during the time of the lymphoid follicle formation in the developing bursa. The activity was localized in the mesenchymal tissue surrounding the lymphoid follicles. Testosterone given in ovo prevented the appearance of alkaline phosphatase in the bursal mesenchyme but had no effect on the activity of the embryonic liver. In contrast, in ovo treatment with cyclophosphamide had no effect on the alkaline phosphatase in the bursa. By using transplantation of embryonic bursal stem cells, it was further shown that, in contrast to cyclophosphamide, testosterone destroys the capacity of the bursa to serve as a differentiation site for the B-cell lineage. The results indicate that testosterone affects the stromal cells of the bursa, whereas cyclophosphamide destroys only the lymphoid population undergoing differentiation and leaves the bursal stroma intact.
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PMID:Alkaline phosphatase in the developing bursa of Fabricius. A comparative study of the cyclophosphamide- and testosterone-induced immunodeficiencies in the chick embryo. 40 97

The effects of castration and testosterone replacement therapy on the histology and biochemical composition (RNA, DNA, total protein, alkaline phosphatase, acid phosphatase, hyaluronidase, sialic acid, glycogen, phospholipids, and glycerylphosphorylcholine [GPC]) of the epididymis of the rabbit and rhesus monkey were investigated. Castration produced marked ponderal, histologic, and biochemical changes in the epididymis. In the androgen-deficient state the tubular diameter and epithelial cell height were reduced and there was an increase in interbular stroma. The levels of RNA, DNA, phospholipids, and GPC were also reduced in castrated animals. Testosterone treatment restored the histologic features and the levels of various biochemical constituents to a great extent but not to the intact control level. The importance of endocrine and exocrine factors of the testis in relation to epididymal function is discussed.
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PMID:Androgenic control of epididymal function in rhesus monkey and rabbit. 40 58

Intramuscular injections of testosterone propionate (Perandren, CIBA) at a dose level of 2.5 mg per day for 10 days into adult female parakeet caused an increment of differentiated follicles in the ovary. The histological study of the testosterone treated oviduct of the bird showed well developed villi with a significant number of tubular glands particularly in the middle and distal parts of the oviduct. The high level of alkaline phosphatase activity and ascorbic acid concentration in the distal part of the oviduct in treated birds probably increase the power of hatchable eggs which has a close relationship with the enzyme and vitamin C concentration in the uterus. The testosterone treatment causes a marked depletion of granulosal vitamins from ovary but augments the ascorbate mobilization in the thecal region to a very great extent probably due to more LH secretion from the pituitary.
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PMID:Histological and histochemical studies on the female reproductive system of rose-ringed parakeet (Psittacula krameri) after testosterone propionate treatment. 81 Oct 44

Bone cells derived from human trabecular explants display osteoblastic features. We examined the modulation of alkaline phosphatase activity and cAMP production as the result of exposing trabecular explants to physiologic concentrations of dexamethasone for 4 weeks during cellular outgrowth and subculture. Cells treated with dexamethasone were observed to grow generally more slowly than control cells. Cells appeared larger and more polygonal, and staining for alkaline phosphatase was more intense in the dexamethasone-exposed cultures. There was a progressive increase in cellular PTH responsiveness with increasing duration of exposure of cells to dexamethasone. Cells grown for 6 weeks in 3 x 10(-8) M dexamethasone had a 10-fold increase in PTH-stimulated cyclic AMP accumulation. Dexamethasone-treated cells also had a significantly increased alkaline phosphatase activity. 1,25-(OH)2D3-stimulated alkaline phosphatase activity was increased approximately 20-fold. cAMP responses were significantly increased to PTH (21.7-fold), PGE1 (2.67-fold), and forskolin (4.81-fold), but not to cholera toxin. Dexamethasone-treated cells also had a mean decrease in 1,25-(OH)2D3-stimulated osteocalcin production to 26.2% of control values (p less than 0.001). Hydrocortisone treatment gave rise to similar effects but of smaller magnitude than those of dexamethasone. Testosterone did not have a significant effect on alkaline phosphatase activity or cAMP production. Skin fibroblasts showed a significant enhancement of alkaline phosphatase activity in response to dexamethasone, but of a much smaller magnitude than in bone cells. The phenotypic changes induced by long-term culture in dexamethasone are consistent with the promotion of a more differentiated osteoblastic phenotype.
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PMID:Long-term effects of physiologic concentrations of dexamethasone on human bone-derived cells. 217 56

A bone matrix-induced endochondral bone development model has been used to study the effects of androgens on different stages of bone development in castrated young adult rats. Androgen treatment, especially with dihydrotestosterone (DHT) for 7 days, inhibited 35SO4 incorporation by the developing cartilage in the induced plaques. Castrated control animals maintained for 11 days after implantation of bone matrix showed significantly lower calcium levels in the induced implant than was observed earlier in the unoperated controls. DHT treatment for 11 days caused dramatic increases in levels of calcium in the implants. Testosterone had little effect. When androgen treatment was continued for 21 days, while levels of alkaline phosphatase in the implants were unaffected, levels of calcium in the implants were significantly higher than on day 11 for both castrated control and androgen-treated animals. Peak alkaline phosphatase activity (day 10) is known to precede peak calcium mineralizing activity (day 12) in this model and it is also known that calcium levels remain high thereafter. Evaluation of calcium and alkaline phosphatase levels in the proximal tibial metaphyses of castrated control and androgen-treated groups of animals showed no changes after 11 days treatment. Prolonged treatment (21 days) elevated the levels of alkaline phosphatase whereas no change was observed in calcium levels in the tibial metaphyses. These findings demonstrate that androgens stimulate mineralization and that DHT is more active when used for short periods of time and in early stages of bone development in matrix-induced implants.
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PMID:Influence of testosterone and dihydrotestosterone on bone-matrix induced endochondral bone formation. 249 87

This report describes the first observation of a direct mitogenic effect of androgens on isolated osteoblastic cells in serum-free culture. [3H]thymidine incorporation into DNA and cell counts were used as measures of cell proliferation. The percentage of cells that stained for alkaline phosphatase was used as a measure of differentiation. Dihydrotestosterone (DHT) enhanced mouse osteoblastic cell proliferation in a dose dependent manner over a wide range of doses (10(-8) to 10(-11) molar), and was maximally active at 10(-9) M. DHT also stimulated proliferation in human osteoblast cell cultures and in cultures of the human osteosarcoma cell line, TE89. Testosterone, fluoxymesterone (a synthetic androgenic steroid) and methenolone (an anabolic steroid) were also mitogenic in the mouse bone cell system. The mitogenic effect of DHT on bone cells was inhibited by antiandrogens (hydroxyflutamide and cyproterone acetate) which compete for binding to the androgen receptor. In addition to effects on cell proliferation, DHT increased the percentage of alkaline phosphatase (ALP) positive cells in all three bone cell systems tested, and this effect was inhibited by antiandrogens. We conclude that androgens can stimulate human and murine osteoblastic cell proliferation in vitro, and induce expression of the osteoblast-line differentiation marker ALP, presumably by an androgen receptor mediated mechanism.
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PMID:Androgens directly stimulate proliferation of bone cells in vitro. 252 24

Testicular peritubular myoid cells secrete a paracrine factor that is a potent modulator of Sertoli cell functions involved in the maintenance of spermatogenesis. These cells also play an integral role in maintaining the structural integrity of the seminiferous tubule. To better understand this important testicular cell type, studies were initiated to characterize cultured peritubular cells using biochemical and histochemical techniques. The electrophoretic pattern of radiolabeled secreted proteins was similar for primary and subcultured peritubular cells and was unique from that of Sertoli cells. Morphologic differences between Sertoli cells and peritubular cells were noted and extended with histochemical staining techniques. Desmin cytoskeletal filaments were demonstrated immunocytochemically in peritubular cells, both in culture and in tissue sections, but were not detected in Sertoli cells. Desmin is proposed to be a marker for peritubular cell differentiation as well as a marker for peritubular cell contamination in Sertoli cell cultures. Peritubular cells and Sertoli cells were also stained histochemically for the presence of alkaline phosphatase. Staining for the alkaline phosphatase enzyme was associated with peritubular cells but not with Sertoli cells. Alkaline phosphatase is therefore an additional histochemical marker for peritubular cells. Biochemical characterization of peritubular cells relied on cell-specific enzymatic activities. Creatine phosphokinase activity, a marker for contractile cells, was found to be associated with peritubular cells, while negligible activity was associated with Sertoli cells. Alkaline phosphatase activity assayed spectrophotometrically was found to be a useful biochemical marker for peritubular cell function and was utilized to determine the responsiveness of primary and subcultured cells to regulatory agents. Testosterone stimulated alkaline phosphatase activity associated with primary cultures of peritubular cells, thus supporting the observation that peritubular cells provide a site of androgen action in the testis. Retinol increased alkaline phosphatase activity in subcultured peritubular cells. Alkaline phosphatase activity increased in response to dibutyryl cyclic adenosine monophosphate (AMP) in both primary and subcultured peritubular cell cultures. Observations indicate that the ability of androgens and retinoids to regulate testicular function may be mediated, in part, through their effects on peritubular cells. This provides additional support for the proposal that the mesenchymal-epithelial cell interactions between peritubular cells and Sertoli cells are important for the maintenance and control of testicular function. Results imply that the endocrine regulation of tissue function may be mediated in part through alterations in mesenchymal-epithelial cell interactions.
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PMID:Cytochemical and biochemical characterization of testicular peritubular myoid cells. 254 16

Testosterone-treated calf thymocytes produce increased amounts of proteins, termed lipokinins, that stimulate phospholipase A2 from snake venom and mammalian tissue. The induction of these proteins by testosterone is blocked by cycloheximide and, thus, requires new protein synthesis. These proteins activate phospholipase A2 stoichiometrically. They are inactivated by boiling, trypsin or alkaline phosphatase but not by deoxyribonuclease or ribonuclease. Lipokinins significantly repair the failure of masculinization in the Tfm mouse with an X-linked deficiency of androgen-receptor. Thus, the post-receptor effects of testosterone on embryonic genitalia may be mediated through stimulation of phospholipase A2 by lipokinins. Moreover, lipokinins may be involved as stimulators of the arachidonic acid cascade, as lipocortins are inhibitors.
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PMID:John Lattimer lecture. Lipokinins: novel phospholipase A2 activators mediate testosterone effects on embryonic genitalia. 318 94


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