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)

"Perinatal" hypophosphatasia is the most severe form of this inborn error of metabolism, which is characterized by deficient activity of the tissue-nonspecific (liver/bone/kidney) isoenzyme of alkaline phosphatase (ALP) (TNSALP). We report that autopsy tissue from three affected subjects, which was profoundly low in ALP activity, had essentially unremarkable levels of pyridoxal-5'-phosphate (PLP), pyridoxal, and total vitamin B6 content despite markedly elevated plasma PLP levels (5,800, 14,500, and 98,500 nM; adult norm, 5-109 nM). Our findings help to explain the general absence of symptoms of vitamin B6 excess or deficiency in hypophosphatasia, and provide evidence that TNSALP acts as an ectoenzyme to regulate extracellular rather than intracellular concentrations of PLP (the cofactor form of vitamin B6) and perhaps other phosphate compounds.
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PMID:Perinatal hypophosphatasia: tissue levels of vitamin B6 are unremarkable despite markedly increased circulating concentrations of pyridoxal-5'-phosphate. Evidence for an ectoenzyme role for tissue-nonspecific alkaline phosphatase. 335 Sep 70

Patients with hypophosphatasia caused by a deficiency of alkaline phosphatase first showed marked accumulation of phosphoethanolamine and other phosphorus compounds in kidney and liver, while in placenta and intestine contents of these compounds were within a normal range. Furthermore, 32P-incorporation in cultured skin fibroblasts of patients with hypophosphatasia was increased about two to three times of control. FPLC chromatographic analysis also indicates that the accumulated phosphorus compounds in hypophosphatasia was smaller molecular phosphorus containing compounds. These data provide new pathophysiological aspect of hypophosphatasia.
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PMID:Accumulation of phosphorus compounds in tissues and cultured skin fibroblasts in patients with hypophosphatasia. 340 5

In a previous publication, we described the clinical and radiographic findings of a family in which the children manifested premature exfoliation of the deciduous teeth. We now report for the same family the results of extensive laboratory studies performed on blood and urine, analysis of periodontal microflora, and a family pedigree. We demonstrated the presence of putative periodontal pathogens in the subgingival microflora, elevated levels of serum antibodies reacting to Bacteroides gingivalis, Capnocytophaga gingivalis, and C. sputigena in 2 of the children, and significantly suppressed monocyte chemotaxis in all 3 children. Phosphoethanolamine was found in the urine of the father and all 3 children, but not in the mother. Likewise, serum alkaline phosphatase was abnormally low for all 3 children, and was at the extreme low end of normal range for the father, but was normal for the mother. On the basis of the alkaline phosphatase and phosphoethanolamine measurements, we assigned a diagnosis of hypophosphatasia to the 3 children. Phosphoethanolamine and alkaline phosphatase were also abnormal in the paternal grandmother and her brother. The son of this brother who was deceased had a daughter manifesting premature loss of the primary teeth. The data are consistent with an autosomal dominant mode of transmission. In the light of our findings, hypoplastic cementum must be considered in the etiology of some forms of early-onset periodontitis.
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PMID:Laboratory studies of a family manifesting premature exfoliation of deciduous teeth. 346 73

The physicochemical properties and electrophoretic mobility of different isoforms of alkaline phosphatase were studied in chorionic villi. Based on selective inactivation and inhibition studies (thermal stability, inactivation by urea, EDTA and L(+)ascorbic acid and L-amino acid inhibition), evidence was obtained for the existence of two distinct types of alkaline phosphatase in trophoblast cells. One type is peculiar to chorionic villi while the other is also found in term placenta. Both show two isoforms. These two isoforms were observed with polyacrylamide gel electrophoresis, carried out at pH 6.0 and 9.5. It is suggested that the qualitative and quantitative methods of alkaline phosphatase analysis could be used for first trimester fetal diagnosis of severe infantile hypophosphatasia and for understanding genetic control during early fetal development.
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PMID:Alkaline phosphatase expression in human chorionic villi. 356 36

After a 3-month course of weekly intravenous infusions of pooled normal plasma in an attempt at enzyme replacement therapy, we observed gradual and prolonged normalization of circulating alkaline phosphatase (AP) activity in a boy with infantile hypophosphatasia. During this 4-month period, when hypophosphatasemia had been corrected, electrophoretic and heat denaturation studies suggested that the AP in serum was skeletal in origin. Serial radiographic and histologic studies of bone demonstrated skeletal remineralization and the appearance of AP activity in osteoblasts and chondrocytes after the infusions. Considerable clinical improvement coincided with the skeletal remineralization. Our observations indicate that in one patient with infantile hypophosphatasia the structural gene for the tissue-nonspecific (bone/liver/kidney) AP isoenzyme was intact and could be expressed with marked physiologic effect. Infantile hypophosphatasia may result from absence or inactivation of a circulating factor(s) that regulates the expression of the gene for tissue nonspecific AP.
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PMID:Infantile hypophosphatasia: normalization of circulating bone alkaline phosphatase activity followed by skeletal remineralization. Evidence for an intact structural gene for tissue nonspecific alkaline phosphatase. 394 98

Quantitative alkaline phosphatase (ALP; EC 3.1.3.1) expression varies among various tissues and among inbred mouse strains. There is about a 20-fold difference in ALP activity in lungs from CBA/J and C57L/J inbred strains and this difference is inherited additively with a heritability of 0.84. Studies of thermostability at 56 and 65 degrees C and sensitivity toward inhibitors (L-phenylalanine, L-homoarginine, L-phenylalanylglycylglycine, and levamisole) do not demonstrate differences in the ALP from lungs or liver of the CBA/J and C57L/J strains. The ALP activity in intestine expressed by the intestinal locus varies over 100-fold between A/J and DBA/1J strains. Further studies of the mechanisms resulting in this difference in ALP activity should help elucidate the mechanisms for aberrant expression of ALP in malignancy and for manipulation of low ALP activity in hypophosphatasia.
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PMID:Genetic variability of alkaline phosphatase expression in inbred mouse tissues. 399 56

Markedly increased circulating concentrations of pyridoxal-5'-phosphate (PLP) were found in each of 14 patients representing all clinical forms of hypophosphatasia, an inborn error characterized by deficient activity of the tissue nonspecific (bone/liver/kidney) isoenzyme of alkaline phosphatase (AP). The mean PLP concentration in plasma was 1174 nM (range, 214-3839 nM) in the patients and 57 +/- 26 nM (mean +/- SD) in 38 control subjects. In four affected children, urinary excretion of the PLP degradation product, 4-pyridoxic acid, was unremarkable during consumption of normal quantities of dietary vitamin B6. Our findings identify increased circulating PLP concentration as a marker for hypophosphatasia and provide further evidence that tissue nonspecific AP acts in vitamin B6 metabolism. Tissue nonspecific AP appears to function as an ectoenzyme to regulate extracellular but not intracellular levels of PLP substrate. Performing assays of circulating PLP concentration alone to assess vitamin B6 nutrition may be misleading in disorders associated with altered AP activity.
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PMID:Markedly increased circulating pyridoxal-5'-phosphate levels in hypophosphatasia. Alkaline phosphatase acts in vitamin B6 metabolism. 403 Oct 70

Chondroosseous tissue from six infants with infantile hypophosphatasia and six control infants were studied by light, transmission, and scanning electron microscopy. Alkaline phosphatase histochemical reaction of the growth plate was studied in two infants and was greatly reduced when compared to two control infants. Hypertrophic chondrocytes were increased in number with persisting cartilage islets in the metaphysis. In five of the six cases studied, chondrocytes and intercartilagenous intercellular chondroid matrix appeared ultrastructurally normal. Matrix vesicle distribution was similar to that of control subjects, but they were associated with few mineral crystals. In two infants, the matrix vesicles were alkaline phosphatase nonreactive. In the calcifying zone of the growth plate and in the newly formed metaphyseal trabecular bone, cartilagenous calcospherites often were small and the orientation of crystals was nonradial when compared to that of control infants. The mineralization of diaphyseal bone appeared normal. It seems that matrix vesicles are present in hypophosphatasia and that the impaired mineralization of cartilage is due primarily to the deficiency of alkaline phosphatase. In spite of the lack of alkaline phosphatase, secondary mineralization of bone which is not mediated by matrix vesicles was normal.
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PMID:Histologic and ultrastructural studies on the mineralization process in hypophosphatasia. 407 24

An isotope dilution method, using (32)P-labeled pyrophosphate, has been developed for the measurement of inorganic pyrophosphate (PP(1)) in human plasma. The specificity of the method was better than 90% as assessed by elution patterns during ion-exchange chromatography, by paper chromatography, and by incubation with inorganic pyrophosphatase. The 99% confidence limits for a single estimation of plasma PP(1) was +/-13%. There were no differences in plasma PP(1) between men and women, but the values in young people (0-15 yr) were slightly higher than in older people. The mean concentration (+/-SE) of PP(1) in the plasma of 73 men and women was 3.50 +/-0.11 mumoles/liter (0.217 +/-0.007 mug P/ml) and the normal range (99% limits) was 1.19-5.65 mumoles/liter (0.074-0.350 mug P/ml). It has been suggested that PP(1) may be important in calcium metabolism because PP(1) can prevent the precipitation of calcium phosphates in vitro and in vivo, and can slow the rates at which hydroxyapatite crystals grow and dissolve. Plasma PP(1) was therefore measured in several disorders of bone. Normal values were found in osteogenesis imperfecta, osteopetrosis, "acute" osteoporosis, and primary hyperparathyroidism. Plasma PP(1) was invariably raised in hypophosphatasia. The excess of PP(1) in plasma might be the cause of the defective mineralization in hypophosphatasia and the function of alkaline phosphatase in bone may be to act as a pyrophosphatase at sites of calcium deposition.
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PMID:Inorganic pyrophosphate in plasma in normal persons and in patients with hypophosphatasia, osteogenesis imperfecta, and other disorders of bone. 432 72

It is recognized that serum alkaline phosphatase may reflect enzyme contributions from bone, liver, and intestine. We have investigated serum alkaline phosphatases in two siblings with hypophosphatasia. After administration of long-chain triglycerides, the major alkaline phosphatase component of their sera was shown to be of intestinal origin on the basis of inhibition by l-phenylalanine. Starch block electrophoresis suggested that there were other regions of l-phenylalanine-sensitive alkaline phosphatase in addition to the major slow-moving intestinal band. Medium-chain triglycerides which are absorbed by the portal route did not cause a similar augmentation of intestinal alkaline phosphatase activity. These studies indicate that serum levels of intestinal alkaline phosphatase are increased normally after long-chain fat feeding in hypophosphatasia and may be the major component of total serum alkaline phosphatase activity.
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PMID:Serum alkaline phosphatase in hypophosphatasia. 511 5


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