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)

Avian leukosis virus (ALV)-induced osteopetrosis is caused by the abnormal growth and differentiation of osteoblasts. To evaluate the role of infection in osteopetrosis induction, the replication of an osteopetrosis-inducing virus (Br21) has been compared in osteopetrotic bone, calvarial-derived osteoblasts, and chick embryo fibroblasts. Much higher levels of infection occurred in diseased bone than in the cultures. Severe cases of osteopetrosis contained 10 times more viral DNA, 30 times more mature capsid protein, 5 to 10 times more Gag precursor protein, and 2 to 3 times more Env protein than the infected cultures. Virus replication in the cultured osteoblasts was similar to that in fibroblasts except for a distinctive asymmetric localization of Gag proteins. In osteopetrotic chickens, bones became atypically enlarged and sera contained elevated levels of osteoblast differentiation markers (alkaline phosphatase and osteocalcin). In cultures, infections did not affect the growth or differentiation of osteoblasts. Thus, the infected cultures lacked aspects of the bone environment that support both the high levels of infection and the aberrant function of osteoblasts characteristic of ALV-induced osteopetrosis.
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PMID:Replication of an osteopetrosis-inducing avian leukosis virus in fibroblasts, osteoblasts, and osteopetrotic bone. 797 14

Rickets is a common and paradoxical feature of infantile malignant osteopetrosis and results from the inability of osteoclasts to maintain a normal calcium-phosphorus balance in the extracellular fluid. Despite a markedly positive total body calcium balance, rickets arises when the serum calcium x phosphorus product is insufficient to mineralize newly formed chondroid and osteoid. In five children with malignant infantile osteopetrosis, there were clinical, radiographic, biochemical, and histologic findings of rickets. Characteristic biochemical abnormalities included hypocalcemia, hypophosphatemia, and elevated levels of serum acid phosphatase, alkaline phosphatase, c-terminal parathyroid hormone, and 1,25-dihydroxyvitamin D. The urinary calcium/creatinine ratio was markedly depressed. The serum calcium x phosphorus product was below 30 in all children at the time the rickets was diagnosed, and above 40 by the time the rickets had resolved. Baseline bone density measurements were markedly elevated in all children (> 5 standard deviation above normal) and showed even significant increases (> 7 SD) when the rickets was treated with vitamin D and calcium. The children showed marked clinical improvement, decreased lethargy, increase in mobility and activity, and stimulation of appetite, without any additional adverse hematologic or neurologic effects. The rickets was reversible in all children: in one by HLA-identical sibling bone marrow transplantation and in four by physiologic doses of vitamin D and calcium. The parathyroid and renal responses to hypocalcemia were appropriate, but glucocorticoids, used in treating the hematologic complications of the disease, may have blunted the intestinal response to maximal vitamin D stimulation. This latter blockade can be overcome by increasing dietary calcium. By liberalizing rather than by restricting calcium and phosphorus intake, hypocalcemia can be minimized, phosphorus metabolism can be improved, and rickets can be cured.
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PMID:Osteopetrorickets. The paradox of plenty. Pathophysiology and treatment. 839 71

The objectives of the present research on the osteopetrotic mouse are to investigate the factors influencing heterotopic bone development. The osteopetrotic mutant was deficient in macrophage colony stimulating factor and failed to activate functioning monocytes, macrophages, and osteoclasts. Macrophage colony stimulating factor deficiency also caused a heretofore undescribed delay in organization and absorption of hematomas resulting from surgical operations. Surgically implanted in a heterotopic site, bone morphogenetic protein induced approximately 10% more bone in osteopetrotic than littermate+/? mice. Radiographically, the heterotopic bone was at least 50% denser than new bone. The new bone was metachromatic or slightly basophilic rather than eosinophilic and undermined with large deposits of hypercalcified hypertrophic cartilage. Bone mineral in the osteopetrotic mouse was deposited in an apatite-like form with a higher calcium/phosphorus ratio than the bone of +/? littermates. High levels of alkaline phosphatase synthesis were sustained longer in the osteopetrotic mouse than in the +/? littermate. Tartrate resistant acid phosphatase synthesis was almost nil in osteopetrotic mice during the first 4 weeks, and thereafter appeared coincidental with spontaneous remission of osteopetrosis at 6 weeks. Implants of the mineralized cortical bone matrix of the osteopetrotic mouse showed minimal if any bone morphogenetic protein activity of matrix of +/? littermate or otherwise normal mice. The cause of the remission of the bone disorder in the osteopetrotic mouse is not known but is of great interest to students studying the problem of coupling of bone formation to bone resorption.
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PMID:Bone morphogenetic protein-induced heterotopic bone in osteopetrosis. 859 66

Osteopetrosis is an inherited disorder characterized by bone sclerosis due to reduced bone resorption. Here we report that human osteopetrotic osteoblast-like (Ob) cells express a defective phenotype in primary cultures in vitro, and that bone marrow transplant (BMT) corrects osteoblast function. DNA analysis at polymorphic short-tandem repeat loci from donor, recipient, and primary Ob-like cells pre-BMT and 2 yr post-BMT revealed that Ob were still of recipient origin post-BMT. Osteopetrotic Ob-like cells obtained pre-BMT showed normal and abnormal 1,25(OH)2D3-induced alkaline phosphatase (ALPase) and osteocalcin production, respectively, and failed to produce macrophage colony-stimulating factor (M-CSF) in response to IL-1a and TNF-alpha. These parameters were all normalized in primary Ob-like cells prepared 2 yr post-BMT. X-linked clonality analysis at the human androgen receptor (HUMARA) locus revealed that osteoblasts showed a polyclonal and an oligoclonal derivation pre- and post-BMT respectively, indicating that a limited number of progenitor reconstituted this population. Because osteoblasts were still of recipient origin post-BMT, this suggests that functional osteoclasts, due to the replacement of hematopoeitic cells, provided a local microenvironment in vivo triggering the differentiation and/or recruitment of a limited number of functional osteoblasts.
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PMID:Demonstration of an osteoblast defect in two cases of human malignant osteopetrosis. Correction of the phenotype after bone marrow transplant. 887 17

This chapter summarizes the many recent advances in our understanding of the principal heritable disorders of bone. In the course of little more than a decade many diseases that were recognizable only by their clinical and radiological features have become explicable in molecular terms. Large numbers of mutations of the genes coding for collagen, for alkaline phosphatase, for the cell surface receptors for parathyroid hormone and for calcium, and for a number of other proteins, are recognized. The chapter covers the many variants of osteogenesis imperfecta, the most common heritable cause of fractures. It also covers osteopetrosis, hypophosphatasia, pseudohypoparathyroidism (with Albright's hereditary osteodystrophy), familial benign hypercalcaemia, autosomal dominant hypocalcaemia and the molecular causes of some chondrodysplasias.
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PMID:Osteogenesis imperfecta and other heritable disorders of bone. 922 92

Lymphocytes are implicated in the pathogenesis of bone disease in chronic inflammation, osteoporosis, transplantation and osteopetrosis. The effects of lymphocytes and lymphocyte-conditioned medium on bone-resorbing activity and osteoclast function have been well studied, but there are few studies of the effects of LCM on bone formation and osteoblast function. The effects of LCM on the function of the MG-63 human osteosarcoma cell line were studied, which, when stimulated with 1,25-(OH)2D3, demonstrates many of the properties of the mature human osteoblast. Lymphocytes contain oestrogen receptors and the model was also used to test the hypothesis that the effects of oestrogen on bone cells may be mediated indirectly via lymphokines. Lymphokines were measured by ELISA in human lymphocyte conditioned medium (LCM) collected following incubation of mixed lymphocytes with or without stimulation for 72 h. Unstimulated LCM increased proliferation of MG-63 cells and this increase was not affected by neutralization of interleukin 1 (IL-1), IL-3, IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF), tumour necrosis factor (TNF), lymphotoxin alpha, or interferon gamma (IFN-gamma). Phytohaemagglutinin-stimulated LCM decreased proliferation of MG-63 cells, as well as induced expression of IL-6 mRNA, increased alkaline phosphatase production, and inhibited osteocalcin production. The decrease in proliferation was abolished by neutralization of IFN-gamma but was unaffected by neutralization of IL-1, IL-2, IL-3, IL-4, IL-6, GM-CSF, TNF, or lymphotoxin alpha. Neutralization of IFN-gamma in stimulated LCM also partially inhibited the increase in alkaline phosphatase production but had no effects on the decrease in osteocalcin production. Although oestrogen inhibited lymphocyte proliferation, the effects of LCM collected from lymphocytes in the presence of oestrogen on MG-63 cell proliferation and function was no different than the effects of LCM collected in the absence of oestrogen. LCM has multiple effects on MG-63 cell function and gene expression. Lymphocyte stimulation during the preparation of LCM further modulates these effects. Although partially mediated by IFN-gamma, the effects of LCM on these cells cannot be completely explained by individual component lymphokines. This may have implications for understanding the pathophysiology of bone loss in inflammatory disorders as well as possible feedback loops of locally generated cytokines in bone.
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PMID:Effects of human lymphocyte-conditioned medium on MG-63 human osteosarcoma cell function. 972 33

Autosomal dominant osteosclerosis (ADO), a rare inherited craniotubular bone disorder, is a generalized hyperostosis that manifests itself as increased cortical thickening of the skull, mandible, metacarpals, metatarsals, long bones, vertebral bodies, ribs, and clavicles. Jaw abnormalities, which clinically resemble the widening and deepening of the mandible seen in cherubism, begin in childhood and have been reported to stabilize after puberty. Teeth and alveolar bone are normal. ADO must be distinguished from Van Buchem's disease, which is characterized by elevated serum alkaline phosphatase, neurologic complications, exopthalmos, periosteal excrescences, and an autosomal recessive pattern of inheritance, as well as from other craniotubular bone disorders such as osteopetrosis. We present clinical and radiographic documentation of members of a kindred representing 4 generations affected with ADO. At initial examination of the proband, a differential diagnosis included cherubism, fibrous dysplasia, osteopetrosis, and Paget's disease. Radiographic examination revealed extensive radiopacity of the inferior border and basal bone of the mandible. The proband's clavicles and humerus were also affected. All family members examined were similarly affected and had mandibular and palatal tori. Authors of a previously published report on the dental and dentoalveolar management of patients with craniotubular bone disorders have recommended prophylactic antibiotics to minimize risk of osteomyelitis in all such cases. The members of our kindred received extensive dental treatment before diagnosis, including extractions of severely carious teeth, preprosthetic dentoalveolar surgery, and endodontic therapy; there was no incidence of osteomyelitis or postsurgical complications. Therefore, the use of prophylactic antibiotics may not be warranted in patients with ADO who have otherwise normal medical histories.
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PMID:Autosomal dominant osteosclerosis: report of a kindred. 1034 20

Osteoclasts from a patient affected by osteopetrosis were examined in vivo and in vitro. Iliac crest biopsy revealed an osteosclerotic pattern, with prominent numbers of osteoclasts noted for hypernuclearity and incomplete adherence to the bone surface. A population comprising tartrate-resistant acid phosphatase (TRAP)-positive, multinucleated and mononuclear cells, and alkaline phosphatase-positive stromal fibroblasts was obtained in vitro from bone marrow. Mononuclear TRAP-positive precursors spontaneously fused in culture to form giant osteoclast-like cells. These cells expressed the osteoclast marker MMP-9 and calcitonin receptor, and lacked the macrophage marker, Fc receptor. Expression and distribution of c-src, c-fms, and CD68, and response to steroid hormones relevant to osteoclast differentiation and function were apparently normal, whereas cell retraction in response to calcitonin was impaired. TRAP-positive multinucleated cells did not form osteoclast-specific adhesion structures (clear zone, podosomes, or actin rings). Bone resorption rate was severely reduced in vitro. Focal adhesions and stress fibers were observed en lieu of podosomes and actin rings. Adhesion structures contained low levels of immunoreactive vitronectin receptor, most of this integrin being retained in cytoplasmic vesicles. These data provide the first characterization of abnormal differentiation and function of human osteopetrotic osteoclast-like cells.
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PMID:Mechanisms of osteoclast dysfunction in human osteopetrosis: abnormal osteoclastogenesis and lack of osteoclast-specific adhesion structures. 1062 70

c-src deletion in mice leads to osteopetrosis as a result of reduced bone resorption due to an alteration of the osteoclast. We report that deletion/reduction of Src expression enhances osteoblast differentiation and bone formation, contributing to the increase in bone mass. Bone histomorphometry showed that bone formation was increased in Src null compared with wild-type mice. In vitro, alkaline phosphatase (ALP) activity and nodule mineralization were increased in primary calvarial cells and in SV40-immortalized osteoblasts from Src(-/-) relative to Src(+/+) mice. Src-antisense oligodeoxynucleotides (AS-src) reduced Src levels by approximately 60% and caused a similar increase in ALP activity and nodule mineralization in primary osteoblasts in vitro. Reduction in cell proliferation was observed in primary and immortalized Src(-/-) osteoblasts and in normal osteoblasts incubated with the AS-src. Semiquantitative reverse transcriptase-PCR revealed upregulation of ALP, Osf2/Cbfa1 transcription factor, PTH/PTHrP receptor, osteocalcin, and pro-alpha 2(I) collagen in Src-deficient osteoblasts. The expression of the bone matrix protein osteopontin remained unchanged. Based on these results, we conclude that the reduction of Src expression not only inhibits bone resorption, but also stimulates osteoblast differentiation and bone formation, suggesting that the osteogenic cells may contribute to the development of the osteopetrotic phenotype in Src-deficient mice.
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PMID:Decreased c-Src expression enhances osteoblast differentiation and bone formation. 1103 78

Osteoblast development is a complex process involving the expression of specific growth factors and regulatory proteins that control cell proliferation, differentiation, and maturation. In this study, we used the rat mutation, osteopetrosis (op), to examine differences in skeletal gene expression between mutant op and normal littermates. Total RNA isolated from long bone and calvaria was used as a template for mRNA differential display. One of many cDNAs that were selectively expressed in either normal or mutant bone was cloned and sequenced and found to share some homology to the human nmb and Pmel 17 genes. This novel cDNA was named osteoactivin. Osteoactivin has an open reading frame of 1716 bp that encodes a protein of 572 amino acids with a predicted molecular weight of 63.8 kD. Protein sequence analysis revealed the presence of a signal peptide and a cleavage site at position 23. The protein also has thirteen predicted N-linked glycosylation sites and a potential RGD integrin recognition site at position 556. Northern blot analysis confirmed that osteoactivin was 3- to 4-fold overexpressed in op versus normal bone. RT-PCR analysis showed that osteoactivin is most highly expressed in bone compared with any of the other non-osseous tissues examined. In situ hybridization analysis of osteoactivin in normal bone revealed that it is primarily expressed in osteoblasts actively engaged in bone matrix production and mineralization. In primary rat osteoblast cultures, osteoactivin showed a temporal pattern of expression being expressed at highest levels during the later stages of matrix maturation and mineralization and correlated with the expression of alkaline phosphatase and osteocalcin. Our findings show that osteoactivin expression in bone is osteoblast-specific and suggest that it may play an important role in osteoblast differentiation and matrix mineralization. Furthermore, osteoactivin overexpression in op mutant bone may be secondary to the uncoupling of bone resorption and formation resulting in abnormalities in osteoblast gene expression and function.
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PMID:Cloning and characterization of osteoactivin, a novel cDNA expressed in osteoblasts. 1174 12


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