UNIPROT:P00790 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00790 (PGA)
2,475 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calcium and folic acid absorption were studied in 28 adult male epileptics on chronic anticonvulsant therapy. In 16 patients on diphenylhydantoin alone, calcium absorption was abnormal in 9. In 12 patients on both diphenylhydantoin and phenobarbital, calcium absorption was abnormal in 3 patients. Folic acid (3H-PGA) absorption was normal in all but one patient, while serum folate (less than 6.4 ng/ml) was reduced in all patients. Hypocalcemia (less than 8.5 mg/100 ml) occurred in only 2 patients, while serum alkaline phosphatase was elevated in 7 patients. These findings support the proposal that rickets and osteomalacia reported in patients on chronic anticonvulsant therapy results from reduced calcium absorption. The effect of these drugs appears to be the acceleration of the metabolism of vitamin D and an increase in the excretion of polar metabolites. This may result in reduced levels of 25-hydroxycholecalciferol and 1,25-dihydroxycholecalciferol which are necessary for normal absorption of calcium. Since calcium absorption may be impaired secondary to a relative vitamin D deficiency, a supplemental increase in vitamin D intake by patients on anticonvulsant drugs is recommended.
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PMID:Calcium and folic acid absorption in patients taking anticonvulsant drugs. 17 36

1 The report of the depression by indomethacin of vasoconstrictor responses to noradrenaline and their partial restoration by prostaglandin E(2) (PGE(2)) and PGE(1) in rat isolated perfused mesenteric blood vessels was investigated. The further suggestion that prostaglandins may be necessary for the combination of noradrenaline with the alpha-adrenoceptor in this tissue was also studied.2 The reported depression by indomethacin was confirmed and was further shown to be in the form of a concentration-dependent flattening of the noradrenaline concentration-effect curve.3 A concentration-dependent restorative effect was observed for all prostaglandins studied. The decreasing order of potency for the restoration towards normal of the indomethacin-depressed responses to noradrenaline was: PGE(2), PGE(1), PGA(1), PGF(2alpha), PGA(2).4 The prostaglandins studied were not uniform in their restorative actions and could be separated into two groups. PGE(2) and PGE(1) restored responses towards the control level whereas PGA(1), PGA(2) and PGF(2alpha) increased responses to an above control level and did so over a smaller concentration range. The possibility of several prostaglandin receptors is discussed.5 At concentrations equi-effective in restoring depressed responses to control levels PGA(1) but not PGE(2), caused a parallel shift of the noradrenaline concentration-effect curve to the left and a small, gradual rise in the basal perfusion pressure.6 The reason for the differing effects remains obscure but does not seem to involve a change in the alpha-adrenoceptor as indicated by the pA(2) of phentolamine. Furthermore, the restorative and potentiating effect of PGA(1) is not mediated by blockade of neuronal uptake of noradrenaline.7 It appears that prostaglandins are required for the vasoconstrictor action of noradrenaline in rat mesenteric blood vessels and that this effect is distal to the drug-receptor interaction. The possible involvement of prostaglandins with intracellular calcium ions is discussed.
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PMID:The influence of prostaglandins on noradrenaline-induced vasoconstriction isolated perfused mesenteric blood vessels of the rat. 20 65

Anchorin CII is a collagen binding protein of the annexin family associated with plasma membranes of chondrocytes, osteoblasts, and many other cells. As a major constituent of cartilage-derived matrix vesicles it has been shown to bind to native type II and X collagen. In accordance with this observation, here we show the localization of anchorin CII in the extracellular matrix of calcifying cartilage in the fetal human growth plate, and that it was restricted to the chondrocyte surface in proliferating and resting cartilage. Furthermore, we present evidence, using a slot blot assay, that anchorin CII not only binds to native type II and X collagen, but also to chondrocalcin, the carboxy-terminal extension of type II procollagen, in a calcium-independent manner. Pepsin digestion of type II collagen results in loss of anchorin CII binding, confirming our previous notion that the telopeptide region of type II collagen carries anchorin CII binding sites.
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PMID:Selective binding of anchorin CII (annexin V) to type II and X collagen and to chondrocalcin (C-propeptide of type II collagen). Implications for anchoring function between matrix vesicles and matrix proteins. 139 63

Pepsin is a potent proteolytic enzyme stored and secreted by chief cells in an inactive precursor form, pepsinogen. Its secretion is modulated by both cAMP and calcium-dependent mechanisms. Abnormalities in levels of pepsinogen and its various isozymogens have been linked clinically, epidemiologically, and experimentally to peptic ulcer disease and gastric carcinoma. The ulcerogenesis of pepsin stems from its ability to breach gastroduodenal mucosal barriers. Furthermore, certain isozymogens seems abundant and hyperactive in patients with peptic ulcer disease. The etiology and significance of low pepsinogen levels with disproportionate elevations of pepsinogen II and pepsin 5 in gastric cancer and its precursors is less clear. Further exploration of the patho-physiologic role of pepsin is likely to be of considerable importance in initiating further advances in the understanding and treatment of upper gastrointestinal disease.
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PMID:Pepsinogen. Prolate ellipsoid or unrecognized pathogen? 330 25

Both the triple-helical and denatured forms of nonfibrillar bovine dermal type I collagen were tested as substrates for the catalytic subunit of cAMP-dependent protein kinase in an in vitro reaction. Native, triple-helical collagen was not phosphorylated, but collagen that had been thermally denatured into individual alpha chains was a substrate for the protein kinase. Catalytic subunit of cAMP-dependent protein kinase phosphorylated denatured collagen to between 3 to 4 mol of phosphate/mol of (alpha 1(I)2 alpha 2(I). Pepsin-solubilized and intact collagens were phosphorylated similarly, as long as each was in a nonhelical conformation. The first 2 mol of phosphate incorporated into type I collagen by the protein kinase were present in the alpha 2(I) chain. The alpha 1(I) chain was only phosphorylated during long incubations in which the stoichiometry exceeded 2 mol of phosphate/mol of (alpha 1(I)2 alpha 2(I). Phosphoserine was the only phosphoamino acid identified in collagen that had been phosphorylated to any degree by the protein kinase. The 2 mol of phosphate incorporated into the alpha 2(I) chain were localized to the alpha 2(I)CB4 cyanogen bromide fragment. The catalytic subunit of cAMP-dependent protein kinase phosphorylated denatured pepsin-solubilized collagen with a Km of 8 microM and a Vmax of approximately 0.1 mumol/min/mg of enzyme. Denatured, but not triple-helical, type I collagen was also phosphorylated by cGMP-dependent protein kinase, although it was a poorer substrate for this enzyme than for the cAMP-dependent protein kinase. Collagen was not a substrate for phospholipid-sensitive Ca2+-dependent protein kinase. These results suggest the potential for nascent alpha chains of type I collagen to be susceptible to phosphorylation by cAMP-dependent protein kinase in vivo prior to triple-helix formation. Such a phosphorylation of collagen could be relevant to the action of cAMP to increase the intracellular degradation of newly synthesized collagen.
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PMID:In vitro phosphorylation of type I collagen by cyclic AMP-dependent protein kinase. 395 36

Prostaglandins E(1) and E(2) significantly stimulated the synthesis of aldosterone, corticosterone, and to a lesser degree, cortisol in the outer slices of beef adrenal tissue. PGA, PGF(1a), and PGF(2a) were ineffective.PGE(1) was found to stimulate steroidogenesis in a manner similar to that of adrenocorticotropin (ACTH) in (a) needing calcium, (b) being inhibited by puromycin but not actinomycin D, (c) increasing the levels of cyclic AMP, and (d) not having an additive effect to exogenous cyclic AMP. PGE(1) did not produce an additive effect with either submaximal or maximal amounts of ACTH but did have an additive effect with angiotensin. These results are in keeping with the hypothesis that PGE(1) shares a receptor site on the plasma membrane with ACTH.
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PMID:Adrenocortical steroidogenesis: the effects of prostaglandins. 434 27

1. The abomasum of the milk-fed calf has been examined using an adaptation of the Serial Test Meal method devised by Hunt & Spurrell (1951). The emptying process, acid secretion and pepsin secretion were studied.2. Using serial test meals of simple solutions instilled into the abomasum via a cannula, our investigation leaves no doubt that the osmolarity of the abomasal contents significantly modifies the rate of abomasal emptying.3. Hypotonic and isotonic solutions of sodium chloride and sodium bicarbonate increase abomasal emptying but bicarbonate is most effective.4. Increasing the concentration of solutes in the abomasal contents slows abomasal emptying. Sodium chloride, sodium bicarbonate, ammonium chloride and urea do not delay abomasal emptying until hypertonic concentrations are attained. Hypotonic solutions of potassium chloride, calcium chloride, glucose, lactose, hydrochloric acid and acetic acid delay abomasal emptying.5. The results obtained in the calf show that the abomasum is under restraint probably from duodenal receptors as is the simple stomach (Hunt & Knox, 1968) and that an osmoreceptor as postulated by Hunt (1956) is an important factor in this mechanism.6. Acid secretion is inhibited when hypertonic solutions are instilled into the abomasum.7. Pepsin secretion is not affected by simple solutions in the abomasum.8. Gastric function in the milk-fed calf appears to be controlled by mechanisms essentially similar to those already demonstrated in the simple stomach.
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PMID:The effect of some molecules and ions on gastric function in the milk-fed calf. 456 11

The effects of various proteolytic enzymes on the high molecular weight protein (connectin) present in a direct sodium dodecyl sulfate extract of myofibrils from chicken breast muscle were studied in detail. To keep the high molecular weight proteins intact, myofibrils had to be prepared in the presence of EGTA. Trypsin, chymotrypsin, papain, and nagarse readily hydrolyzed connectin (doublet band of titin) and the band 3 protein (N2-line protein). Pepsin did not attack connectin, but digested the band 3 protein and myosin. Calcium-activated neutral proteinase hydrolyzed the band 3 protein, leaving connectin intact. On the other hand, serine protease digested connectin but not the band 3 protein.
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PMID:Connectin, an elastic protein of muscle. Effects of proteolytic enzymes in situ. 702 43

Two C-terminal variants C and D of mouse fibulin-1 were purified from the culture medium of stably transfected human kidney cell clones. They showed, after rotary shadowing, a dumbbell-like structure of about 33 nm in length. Pepsin digestion demonstrated stability of the disulfide-bonded domains 1 (anaphylatoxin-like) and II (multiple EGF-like motifs) but not for domain III which is different in the variants. A close similarity of the variants was observed in immunochemical assays indicating that domain III epitopes are not very antigenic. Binding analysis in solid phase assays demonstrated for variant C a 100-fold stronger binding to the basement membrane protein nidogen than for variant D. Both interactions were sensitive to EDTA. Surface plasmon resonance assays confirmed this difference and showed KD = 60 nM for variant C and KD > 1 microM for variant D. Lower binding activities and smaller differences between both variants were observed for the calcium-dependent binding to fibronectin, laminin-1 and collagen IV. Self aggregation into nest-like oligomers was observed at high concentrations of fibulin-1 which was not sensitive to EDTA.
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PMID:Structural characterization of two variants of fibulin-1 that differ in nidogen affinity. 784 16

Matrix vesicles (MV), microstructures which rapidly accumulate Ca2+ and induce mineral formation in vitro, are linked to type II and X collagens and proteoglycans in the hypertrophic cartilage. However, the roles of these matrix proteins on MV function are not known. This led us to investigate the influence of type II and X collagen binding on Ca2+ uptake by MV. MV isolated from chicken growth plate cartilage were treated with pure bacterial collagenase and 1 M NaCl in synthetic cartilage lymph to selectively and completely remove associated type II and X collagens. Uptake of 45Ca2+ by these collagen-depleted vesicles was markedly reduced. Further treatment with detergent, which disrupted the membrane, restored Ca2+ uptake, indicating that the vesicle membrane structure and the nucleational core inside the vesicle lumen were still intact after the collagenase and 1 M NaCl treatments. Readdition of either native type II or X collagen to the collagenase, 1 M NaCl-treated MV stimulated their Ca2+ uptake to levels similar to those of untreated vesicles. Pepsin-treated type II and X collagens were less effective in stimulating Ca2+ uptake, indicating that non-triple helical domains of these collagens were involved. The pepsin treatment of these collagens also decreased their binding to annexin V (anchorin CII), one of three annexins found in MV, suggesting that annexin V is involved in mediating the binding of type II and X collagens to the MV surface. Furthermore, treatment of collagenase, 1 M NaCl-treated MV with chymotrypsin, which damaged annexin V as well as many other MV proteins, prevented the stimulation of Ca2+ uptake by these collagens. Thus, the interaction between type II and X collagens with MV activates the influx of Ca2+ into MV and may play an important role in calcification of the vesicles.
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PMID:Stimulation of calcification of growth plate cartilage matrix vesicles by binding to type II and X collagens. 815 77

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