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

The dorsal resting hair of C3H mice at various ages was shaved, thus activating the hair into the anagen stage. New hair growth after shaving was not uniform in the various age groups. Furthermore, an increasing delay in hair regrowth was observed as the mice became older (20, 66, 188, and 312 days). In the biochemical analysis of hair regrowing and nongrowing skins after shaving, activities of ornithine decarboxylase, transglutaminase, and alkaline phosphatase had higher values in the extract of the hair regrowing area compared with that in the nongrowing area. In studying the effects of various physical and chemical treatments on hair growth after shaving, repeated shaving was in itself clearly shown to stimulate hair growth. Amongst all of the treatments that were applied, topical application of TPA was most able to accelerate hair regrowth, followed by UV irradiation and retinoic acid treatment. Suppression of hair regrowth was observed in PUVA, DHT, and estradiol; and complete inhibition was seen in the animals treated with betamethasone valerate. In biochemical studies, a relatively good correlation was observed between the rate of hair regrowth and skin ODC activities after treatment.
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PMID:Regulation mechanisms of hair growth. 614 Jan 29

Growth cartilage (GC) and resting cartilage (RC) cells from the ribs of young rats were separated and cultured. The cultured GC cells showed remarkable osteogenic potential only with the participation of certain host cells even after cultivation, while RC cells showed no osteogenic activity when transplanted as isografts loaded into Millipore chambers. The GC cells showed marked differences in glycosaminoglycan (GAG) synthesis and alkaline phosphatase activity as compared with RC cells in terms of the effects of various hormones, vitamins, and other agents. A linkage of parathyroid hormone (PTH) and polyamine metabolism was found, and it was suggested that PTH induces successive increase of ornithine decarboxylase activity, polyamine levels, and GAG synthesis in cultured chondrocytes obtained from growing rabbit costochondral junctions. A factor in a family of somatomedins was isolated from the cartilage of fetal calves and called "cartilage-derived factor" (CDF). CDF markedly increased GAG, protein, RNA, and DNA synthesis and cell division of the cultured cartilage cells. The GC cells formed matrix vesicles abundantly in vitro without mineral deposition. Co-culture of GC cells with bone marrow cells resulted in degradation of GAG and then formation of hydroxyapatite crystals in the extracellular matrix. Antirat GC mouse IgG was prepared to label and sort the osteogenic cells in bone marrow by fluorescence-activated cell-sorter II (FACS II). GC antigen-positive and -negative cells after FACS sorting were cultured and examined in terms of proteoglycan synthesis, alkaline phosphatase activity, and matrix vesicle production. The former cell group was found to be very similar to the cultured GC cells.
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PMID:Cultured growth cartilage cells. 636 86

The influence of estradiol and progesterone, alone or in combination, on the discrete phases of matrix-induced endochondral bone formation was investigated. Administration of estradiol and progesterone in combination increased mesenchymal cell proliferation, as indicated by [3H] thymidine incorporation into acid precipitable material. However, ornithine decarboxylase (ODC) activity was significantly suppressed by the combination of estradiol and progesterone. Also, this treatment did not influence the 35SO4 incorporation into proteoglycans on day 7. Mineralization of newly induced bone was quantitated by alkaline phosphatase, 45Ca incorporation into bone mineral and calcium content, and was found to be significantly increased by progesterone alone and in combination with estradiol in both matrix-induced plaques and tibial metaphysis. These results demonstrated the stimulatory role of progesterone in combination with estradiol in bone formation and mineralization.
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PMID:Influence of estrogen and progesterone on matrix-induced endochondral bone formation. 661 25

The influence of streptozotocin-induced diabetes on discrete stages of matrix-induced endochondral bone formation has been investigated. Mesenchymal cell proliferation was inhibited in diabetic rats as evidenced by a 65% reduction of ornithine decarboxylase (ODC) activity and a 56% reduction of [3H]thymidine incorporation per microgram DNA compared to nondiabetic controls; the inhibition was prevented by insulin treatment. In diabetic animals, chondrogenesis on day 7 was reduced by 49% compared to control animals as assessed by 35SO4 incorporation. Exogenous insulin was stimulatory to cartilage development when present during days 0 through 4 (mesenchymal cell proliferation). Calcification of cartilage and osteogenesis were reduced by more than 50% in diabetic rats and corrected by insulin as measured by alkaline phosphatase activity and 45Ca incorporation. Decreased in vivo endochondral bone growth and development during diabetes is the result of 1) inhibition of insulin-dependent mesenchymal cell proliferation, 2) decreased and delayed cartilage formation due to impaired mesenchymal cell proliferation, 3) decreased and delayed vascular invasion prior to chondrolysis and osteogenesis, and 4) reduced insulin-dependent calcification and ossification.
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PMID:Influence of experimental diabetes and insulin on matrix-induced cartilage and bone differentiation. 698 62

The influence of calcitonin (CT) on various stages of bone formation was investigated. A demineralized collagenous bone matrix-induced bone forming system in rats was used to temporally segregate chondrogenesis and osteogenesis. Administration of CT (15 Medical Research Council Units [MRCU]) daily) at the initiation of matrix-induced bone formation (BF) resulted in a 76% stimulation of BF as measured by 45Ca incorporation and alkaline phosphatase activity. This increase was due, in part, to a stimulation of cartilage and bone precursor cell proliferation monitored by the rate of [3H]thymidine incorporation and ornithine decarboxylase activity. Chondrogenesis on day 7 as measured by 35SO4 incorporation was increased by 52% with CT treatment. To rule out the possibility of a secondary response due to parathyroid hormone, similar studies were done in parathyroidectomized animals and CT stimulation of BF was still observed. However, when CT injections were started after cartilage formation (day 8) there was no stimulation of BF but a significant decrease in 45Ca incorporation was observed. These results indicate CT has two actions: (a) when CT is administered during the initial phases of bone formation, it increases BF due to a stimulation of proliferation of cartilage and bone precursor cells; and (b) when CT is administered after bone formation has been initiated, subsequent bone formation is suppressed.
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PMID:Calcitonin stimulates bone formation when administered prior to initiation of osteogenesis. 727 73

Our previous studies showed that polybrominated biphenyl (PBB) induced hepatic microsomal cytochrome P-450 in dairy cattle but did not elevate hepatic cytosolic ornithine decarboxylase or serum isocitrate dehydrogenase. These enzymes would be expected to increase during hepatotoxic injury and regeneration. Thus, PBB appeared to be a hepatotoxin in rats but not in cattle. In order to identify and confirm the response capability of bovine liver to hepatotoxins, we administered thioacetamide, a hepatotoxin known to induce hepatonecrosis, to a dairy calf. A progression of clinical signs of toxicosis was evident until the animal was moribund by 23 hr postdosing. Histolopathologic alterations in the liver included centrilobular necrosis with congestion and subcapsular microhemmorrhage. Marked changes in serum protein profiles were not noted. However, distinct increases in serum Fe and bilirubin occurred with progressing toxicosis, as did sharp declines in glucose and triglycerides. Serum lactic dehydrogenase, alkaline phosphatase, glutamic-oxaloacetic transaminase, isocitrate dehydrogenase and glutamic-pyruvate transaminase were elevated. Elevation of ornithine decarboxylase was dramatic when compared to the level in normal fetal bovine liver. From studies of its kinetic properties, bovine liver ornithine decarboxylase appears to have an apparent Km for ornithine decarboxylase of .45 mM. Liver homogenates from PBB-treated animals did not form inhibitors to ornithine decarboxylase. Compared with the thioacetamide-treated calf, the normal adult bovine, pregnant adult and 6-month fetus had relative activities of .2 .4 and 5.8%, respectively. These studies show that ornithine decarboxylase is low in liver of normal cattle, but is elevated markedly by agents that cause hepatonecrosis.
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PMID:Ornithine decarboxylase, serum isocitrate dehydrogenase and clinical chemistry changes during thioacetamide-induced hepatotoxicity in a calf. 734 23

Eleven rat genes have been assigned to rat chromosomes by use of mouse x rat somatic hybrids and/or use of linkage to known chromosome markers. Among them, the genes for the inducible nitric oxide synthase (Nos2) and for a vasoactive intestinal peptide receptor (Vipr) are potential candidates for genetic regulation of blood pressure and were localized to rat Chromosomes (Chrs) 10 and 8 respectively. Genes for gastric H,K-ATPase alpha subunit (Atp4a), Class I alcohol dehydrogenase (Adh), and aldolase C (Aldoc) were localized to Chrs 1, 2, and 10 respectively, and thus provide more DNA markers for genetic mapping of quantitative trait loci for blood pressure on those chromosomes. Genes for alkaline phosphatase (Alp1) and cardiac AE-3 Cl-/HCO3- exchanger (Ae3) were both localized to Chr 9. Genes for glutamate dehydrogenase (Glud) and gastric H,K-ATPase beta subunit (Atp4b) were localized to Chr 16. The ornithine decarboxylase (Odc) gene and ornithine decarboxylase pseudogene (Odcp) were localized to Chrs 6 and 11 respectively.
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PMID:Chromosomal assignment of 11 loci in the rat by mouse-rat somatic hybrids and linkage. 787 82

Parathyroid hormone (PTH)-mediated gene activation was assessed in the osteoblast-like rat cell line ROS17/2.8 with two PTH fragments harboring distinct activating domains: PTH-(1-34) and PTH-(28-48). The PTH response of genes expressed immediate early in the cell cycle or in the osteoblast developmental sequence was investigated. In addition, subtractive cloning was used to identify genes in ROS17/2.8 cells that are activated by the two PTH domains. PTH-(1-34) immediately increased the transcript levels of c-fos and c-jun at a considerably higher rate than PTH-(28-48). A significant immediate PTH effect on osteoblastic marker genes could not be detected, with the exception of elevated ornithine decarboxylase transcript levels. However, continuous application of PTH-(1-34) increased transcript levels of the osteoblast-specific osteocalcin gene and reduced those of other osteoblastic marker genes including alkaline phosphatase and the PTH/PTH-related peptide receptor. By subtractive cloning, nine cDNAs were isolated corresponding to mRNAs directly up-regulated by PTH-(1-34) or PTH-(28-48). Among these were a cyclic phosphodiesterase, a (cytosine 5)-methyltransferase, an 80-kDa protein kinase C substrate, junB, and a novel GC-binding protein. Three cDNAs are unknown at present. Interestingly, in all cases, the efficiency of gene activation by PTH-(28-48) was substantially lower in comparison with PTH-(1-34). PTH-mediated protein kinase C signaling in ROS17/2.8 cells may therefore constitute a minor pathway in comparison with the dominant cAMP/protein kinase A cascade.
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PMID:Domain-specific gene activation by parathyroid hormone in osteoblastic ROS17/2.8 cells. 870 88

The habitual consumption of alcoholic beverages is clearly associated with low bone mass and an increased prevalence of skeletal fractures. Microscopic analysis of skeletal tissue from alcoholic patients reveals reduced osteoblast number and suppressed bone formation activity with a relative sparing of resorptive indices. The decreased number of osteoblasts observed in alcoholic subjects results from either impaired proliferation or accelerated senescence. Polyamines and ornithine decarboxylase (ODC), the rate-limiting enzyme for polyamine synthesis, are essential for cell proliferation in a variety of cell types. To determine if the adverse effect of ethanol on osteoblast number involves modulation of polyamine biosynthesis, we examined the effect of ethanol on parameters of cell growth and ODC activity in a human osteoblast-like osteosarcoma cell line (TE-85). Ethanol markedly impaired DNA synthesis and cell proliferation in a dose-dependent fashion, but alkaline phosphatase activity (a marker of differentiated osteoblast function) remained intact, and accelerated apoptosis was not evident. Thus, the reduced osteoblastic cell number was a result of a direct effect on proliferative processes rather than a nonspecific toxic effect of ethanol to accelerate cell death. Induction of ODC activity was impaired in ethanol-exposed cell cultures in a dose-dependent fashion that paralleled the antiproliferative effects. Finally, supplemental polyamine administration substantially improved DNA synthesis in ethanol-exposed UMR 106-01 cell cultures. These data confirm a direct inhibitory effect of ethanol on osteoblast proliferation without overt cellular toxicity that may, in part, explain the reduced bone mass observed in those who consume excessive amounts of alcohol.
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PMID:Ethanol inhibits human osteoblastic cell proliferation. 872 57

A protein kinase which phosphorylates in vitro the biosynthetic ornithine decarboxylase (ODC) was partially purified from Escherichia coli. In vivo phosphorylation of ODC occurs after incubation of E. coli with [32P]orthophosphate. When the recombinant ODC was incubated with calf intestine alkaline phosphatase it was inactivated and this inactive ODC could be reversibly activated allosterically only by guanyl or uracyl phosphate analogues at a concentration of 10(-4) or 10(-3) M. The pH optimum of the [8-3H]GTP binding was determined and it was shown that the GTP binding is proportional to the amount of ODC. The [8-3H]GTP binds specifically to ODC as was proved by the addition of cold GTP or ATP. High concentration of GTP can dissociate the ODC-antizyme complex and either reactivate or liberate the ODC. Therefore, a working hypothesis is suggested describing the regulation of ODC by phosphorylation-dephosphorylation reaction or by antizyme and nucleotide analogues interaction.
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PMID:Regulation of the Escherichia coli biosynthetic ornithine decarboxylase activity by phosphorylation and nucleotides. 891 26


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