EC:3.1.3.1 - FACTA Search

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)

We report on a 43-year-old patient with short stature (hyposomia), allegedly the result of vitamin-D-resistant rickets, previously treated for ankylosing spondylitis. In addition, a uricostatic drug therapy was also necessary because of hyperuricemia with gout attacks. Further examinations revealed the accurate diagnosis: Rathbun's disease. Hypophosphatasia is a hereditary disorder characterized by a deficiency of liver/bone/kidney alkaline phosphatase activity in serum and tissues with defective bone mineralization, bone deformities, short stature, early loss of teeth, and craniosynostosis. In our patient radiographic features were spinal hyperostosis, but with syndesmophytes, chondrocalcinosis of peripheral joints and intervertebral discs, calcific periarthritis and premature closure of skull sutures. Curved ribs and short stature were suggestive of rickets. The aim of this case report is to demonstrate the close relations between hypophosphatasia and spondylitis ankylosans in respect to radiology and clinical symptoms.
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PMID:[Rathbun syndrome (hypophosphatasia). Clinical aspects: dwarfism and Bechterew symptoms]. 179 58

Hypophosphatasia is a heritable disorder characterized by defective osteogenesis and deficient liver/bone/kidney alkaline phosphatase (L/B/K ALP) activity. Severe forms of the disease are inherited in an autosomal recessive fashion. We examined cultured skin fibroblasts from twelve patients with severe hypophosphatasia. All were deficient in L/B/K ALP activity, yet produced normal levels of the corresponding mRNA. Sequence analysis of L/B/K ALP cDNA isolated from one of the patient-derived fibroblast lines revealed a point mutation that converted amino acid 162 of mature L/B/K ALP from alanine to threonine. The patient was homozygous and the parents, who are second cousins, heterozygous for this mutation. Introduction of the mutation into an otherwise normal cDNA disrupted the expression of active enzyme, demonstrating that a defect in the L/B/K ALP gene resulted in hypophosphatasia and that the enzyme is, therefore, essential for normal skeletal mineralization.
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PMID:First identification of a gene defect for hypophosphatasia: evidence that alkaline phosphatase acts in skeletal mineralization. 260 56

Hypophosphatasia is a heritable disorder characterized by defective bone mineralization and a deficiency of liver/bone/kidney alkaline phosphatase (L/B/K ALP) activity in serum and tissues. Severe forms of the disease, which are generally lethal in infancy, are inherited in an autosomal recessive fashion. The gene defects that produce hypophosphatasia are poorly understood, but many are likely to occur at the L/B/K ALP locus. To investigate these gene defects, we analyzed L/B/K ALP DNA, RNA, and enzyme activity in cultured dermal fibroblasts from 14 patients with perinatal or infantile hypophosphatasia and from 12 normal individuals. Southern blot analyses of the L/B/K ALP genes from patients and controls revealed identical restriction patterns. Control fibroblast ALP activity correlated with the corresponding L/B/K ALP mRNA levels estimated by blot hybridization analysis and densitometry (r = .94, P less than .0001). In contrast, fibroblasts from the hypophosphatasia patients were deficient in ALP enzyme activity but expressed apparently full-sized L/B/K ALP mRNA at normal levels. Bone specimens from one of the patients were examined and found to be deficient in histochemical ALP but contained immunologic cross-reactive material detected by anti-human liver ALP antiserum. Our results demonstrate that the deficiency of ALP activity in fibroblasts from 14 patients with severe hypophosphatasia is not due to decreased steady-state levels of the corresponding mRNA. The presence of enzymatically inactive L/B/K ALP protein in one of these patients is consistent with a point mutation or small in-frame deletion in the coding region of L/B/K ALP gene.
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PMID:Analysis of liver/bone/kidney alkaline phosphatase mRNA, DNA, and enzymatic activity in cultured skin fibroblasts from 14 unrelated patients with severe hypophosphatasia. 270 56

Hyperphosphatasia, or hereditary bone dysplasia with hyperphosphatasaemia, is a rare genetic disorder which is characterised by failure to transform woven into lamellar bone. Clinical, radiological and histological features establish the diagnosis, fractures, deformities, diffuse sclerosis on radiographs and high serum alkaline phosphatase being characteristic. We report the case of a 27-year-old man with follow-up at the same hospital for 20 years. Attempts at treatment with calcitonin and disocium etidronate (EHDP) failed, but stapling of the growth plates at the knee was successfully performed. Transverse "brittle" fractures of the humerus, lower leg and ribs healed normally, but internal fixation and late bone grafting were required for a subtrochanteric stress fracture of the femur at the age of 24 years. At present the patient has no clinical problems and leads a normal life.
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PMID:Idiopathic hyperphosphatasia with dermal pigmentation. A twenty-year follow-up. 300 27

The case of a 19-year-old female patient with myositis ossificans progressiva is reported. This disease is a rare hereditary disorder with a dominant autosomal genotype. The patient had typical ossifications of the humeral and dorsal muscles, as well as of those of the left thigh and upper arm, and also an ankylosis of the left hip. There were typical deformations of the cervical vertebrae and of the skeleton of the hands and feet. Laboratory tests showed alkaline phosphatase to be greatly increased. ECG revealed a bifascicular bundle-branch block, and a high-grade restrictive ventilation disorder was shown up by pulmonary function test. When the stability of the genetic material was investigated, DNA synthesis was found to be normal, DNA repair was slightly accelerated, and the sister chromatid exchange rate following stimulation with mitomycin C was higher than in controls.
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PMID:[Myositis ossificans progressiva]. 671 Nov 45

Homozygous beta-thalassemia is a severe hereditary disorder associated with osteopenia. Recently it was suggested that thalassemia minor may be a risk factor for osteoporosis. The purpose of the present study was to investigate this suggestion. Bone mineral status was assessed in 22 premenopausal women and 21 men with beta-thalassemia minor. In vivo neutron activation analysis was applied to measure hand-bone phosphorus (HBP), single-photon absorptiometry to measure forearm bone mineral content (BMC), and dual-energy X-ray absorptiometry to measure spinal bone mineral density (BMD). Comparison of the HBP, BMC, and BMD values with those of sex- and age-matched healthy subjects without the beta-thalassemia trait failed to indicate a statistically significant difference for either sex group. Concerning the biochemical markers of bone metabolism that were studied (serum calcium, phosphate, alkaline phosphatase, osteocalcin, and parathyroid hormone, and 3-h fasting urine calcium-to-urine creatinine ratio) no difference was observed between the study subjects and matched controls. In conclusion, the present study showed that subjects with beta-thalassemia minor are not at risk for osteoporosis.
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PMID:Bone minerals in beta-thalassemia minor. 766 42

von Recklinghausen neurofibromatosis (NF1) is an autosomal dominant genetic disorder associated with congenital pseudoarthrosis and with short stature. To examine whether the NF1 phenotype includes functional osteogenic defects, embryonic bone-derived cells affected with NF1 were tested in culture for specific alkaline phosphatase (ALP) activity and cell-mediated mineralization and compared with other embryonic bone derived cells. NF1 showed a relatively higher specific ALP activity, which has further increased in response to dexamethasone + beta-glycerophosphate (beta GP) (Dex medium) coordinately with a decrease in cell proliferation. In In the control group, two samples showed increased ALP activity, one showed decreased activity and the forth one did not show any change in ALP. NF1 cells were distinguished from other cells regarding day 21 mineralization, they did not mineralize when cultured with ascorbate alone in the absence of Dex medium, whereas control cells did mineralize. Adding beta GP resulted in mineralization by NF1 cells but less than in other cells. In addition, NF1 cells responded to dexamethasone by increasing the beta GP-induced mineralization, as opposed to cells from other embryonic bones, which either did not respond or have even decreased mineralization under dexamethasone. Upon cis-hydroxyproline exposure, Dex medium has also distinguished NF1 cell ALP activity from that of other cell origins. Inhibition of respiratory complex II by malonate showed that most embryonic bone-derived cells of 12 weeks gestation are malonate resistant; thus, malonate selection was ineffective. This is in contrast to rat marrow stromal cells previously shown to undergo mineralizing cell enrichment in response to malonate. Exposure to levamisole, of Dex-treated cells, at days 0-11 has inhibited day 21 mineralization in all tested cultures in spite of the increase in day 11-specific ALP activity. Both malonate and levamisole did not distinguish NF1 cells from the osteogenic phenotype of other cells. Essentially embryonic bone-derived cells from 12 weeks gestation, cultured in the absence of beta GP, retained their mineralization capacity, which does not increase under dexamethasone, as distinguished from NF1 cells which require beta GP for mineralization and positively respond to dexamethasone. Therefore, bone-derived NF1 cells may be useful for studying the regulation of the mineralization process.
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PMID:Analysis of cell-mediated mineralization in culture of bone-derived embryonic cells with neurofibromatosis. 776 87

Hypophosphatasia is rare enzymopathy that normally presents within the first few years of life and often has profound effects upon the periodontium. It is a heritable disorder characterised by defective mineralisation of the skeletal and dental structures of the body and a deficiency in the liver/bone/kidney (L/B/K) isoenzyme of alkaline phosphatase (ALP). There has been a tremendous advance in our knowledge of this condition over the last decade due to the advent of highly specific DNA probes and novel microanalytical techniques. This paper aims to review current literature about hypophosphatasia with special reference to the dental aspects of the condition and to shed light upon the controversial area of its mode of genetic inheritance. It is concluded that hypophosphatasia may result from the existence of 2 defective alleles, which alone or in combination may cause the condition. One allele is expressed in an autosomal dominant manner producing milder phenotypic characteristics, whilst the other is expressed in an autosomal recessive manner producing the more severe clinical form that often results in neonatal death. The milder phenotypes may go undiagnosed and the consequence of this in genetic counselling terms is extremely important.
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PMID:Hypophosphatasia: dental aspects and mode of inheritance. 822 47

The brittleness of bone in people with lethal (type II) osteogenesis imperfecta, a heritable disorder caused by mutations in the type I collagen genes, arises from the deposition of abnormal collagen in the bone matrix. The inability of the abnormal collagen to participate in mineralization may be caused by its failure to interact with other bone proteins. Here, we have designed a strategy to isolate the genes important for mineralization of collagen during bone formation. Cells isolated from 16-day embryonic chick calvaria and seeded post-confluence in culture deposited a mineralized matrix over a period of 2 weeks. Chick skin fibroblasts seeded and cultured under the same conditions did not mineralize. Using RT-PCR, we prepared short cDNAs (approximately 300 bp) corresponding to the 3' ends of mRNA from fibroblasts and separately from the mineralizing calvarial cells. Subtractive cDNA hybridization generated a pool of cDNAs that were specific to mineralizing calvarial cells but not to fibroblasts. Screening of 100,000 plaques of a chick bone ZAP Express cDNA library with this pool of mineralizing-specific cDNAs identified ten clones which comprised full-length cDNAs for the bone proteins osteopontin (eight of the ten positives), bone sialoprotein II (one of the ten positives), and cystatin (one of the ten positives). cDNAs for type I collagen, fibronectin, alkaline phosphatase, house-keeping genes, and other genes expressed in fibroblasts were not identified in this preliminary screen. The pool of short cDNAs is likely to comprise cDNAs for further bone-specific genes and will be used to screen the entire bone cDNA library of 4.2 million clones.
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PMID:Tracing the pathway between mutation and phenotype in osteogenesis imperfecta: isolation of mineralization-specific genes. 872 4

Cattle, homozygous for the genetic disorder of factor XI (FXI) deficiency, exhibit less than 2% of normal plasma FXI activity, display an increased bleeding tendency and are more prone to infectious diseases. FXI is one of the protein components of the contact activation system of coagulation that assembles on the surface of circulating neutrophils. Because of the central role of neutrophils in inflammation, the in vitro responses of neutrophils from normal and FXI deficient cattle were compared. Neutrophil degranulation was evaluated by measuring the release of myeloperoxidase and alkaline phosphatase, and the respiratory burst was evaluated by determining superoxide anion production. Neutrophils from FXI deficient animals exhibited a significant increase (P < 0.05) in the spontaneous release of granule contents compared to the cells from normal cattle. Following stimulation with C5a complement derived from normal serum, the neutrophils from the FXI deficient animals exhibited a greater increase (P < 0.05) in both alkaline phosphatase release and superoxide production. In these neutrophils, following stimulation with C3b complement from normal serum, the relative increase in myeloperoxidase release compared to the unstimulated neutrophils was lower than that observed in the neutrophils from normal animals. There was minimal superoxide production in unactivated neutrophils from either normal or FXI deficient cattle and the response to phorbol ester stimulation was similar in both groups of animals. The C5a complement from FXI deficient serum was more effective (P < 0.05) in stimulating alkaline phosphatase release and superoxide production in normal neutrophils than the equivalent fraction from FXI deficient serum while the C3b complement from the FXI deficient serum was less effective than the normal serum fraction at inducing myeloperoxidase release from normal neutrophils. The results indicate that the differences in the in vitro neutrophil function are likely related to a variation in the function of the contact activation system on the neutrophil surface between normal and FXI deficient animals.
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PMID:Comparison of in vitro function of neutrophils from cattle deficient in plasma factor XI activity and from normal animals. 933 80

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