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991.
Gabrielle Cogan Anil K. Bansal Sarwat Ibrahim Baoqian Zhu Harvey A. Goldberg Bernard Ganss 《Connective tissue research》2013,54(1):60-71
Bone sialoprotein (BSP), a phosphorylated and sulphated glycoprotein that is expressed by mineralized connective tissues is also produced in tumors that metastasize to bone. To facilitate studies of BSP expression in normal and pathological human tissues a monoclonal antibody (BSP 1.2 mab) was raised against human bone BSP. BSP 1.2 mab was shown by ELISA assays to recognize the epitope “DEYSY” (amino acids 279–283) that is conserved in mammalian BSP sequences. However, whereas the antibody recognized recombinant BSPs expressed in bacteria, it did not recognize native forms of rat or pig BSP in which the first tyrosine of the DEYSY peptide sequence appears to be modified. Immunostaining of embryonic human tibiae and calvariae with BSP 1.2 mab showed strong reaction in osteoblasts and osteocytes with relatively weak staining of the bone matrix, suggesting that the BSP 1.2 mab epitope is partially masked in the bone matrix. BSP 1.2 mab also stained osteosarcoma cells and normal trophoblastic cells in the placenta in areas of microcrystalline deposits. Cancer cells in primary breast tumors, lymph nodes, and secondary bone metastases from individual patients were stained strongly by BSP 1.2 mab. Although BSP 1.2 mab also stained breast cancer carcinoma cell lines and SaOS2 osteosarcoma cells, biosynthesis of radiolabelled BSP could not be demonstrated in breast cancer cells. Notably, the staining of BSP in the breast cancer cells was diffuse contrasting the punctate staining, typical of secreted proteins, in SaOS2 cells. These studies, therefore, have identified a unique epitope in human BSP recognized by a monoclonal antibody, BSP 1.2 mab, which can be used for the unequivocal identification of BSP in normal and pathological human tissues. 相似文献
992.
The osteoinductivity of demineralized bone matrix (DBM) becomes significantly reduced if the specimens are further delipidated with chloroform-methanol. The addition of phosphatidylcholine (PC), a major constituent of the lipid fraction present in the calcification front during normal bone formation, can restore the biological activity. Active endochondral bone formation is observed in the DBM/PC implants placed in the anterior abdominal wall musculature or subcutaneously for 28 days. When PC is added to generate a putty containing 60% PC and 40% DBM, biochemical parameters associated with osteoinductivity are significantly enhanced. Biological responses evaluated histologically and by determination of alkaline phosphatase activity are in very good agreement. The DBM/PC putty has good handling properties, can be molded into different shapes, and does not wash away from the application site. An advantage of adding PC is that it not only enhances the handling properties, but also boosts the osteoinductivity of the preparation. 相似文献
993.
Demineralized bone matrix (DBM) is a complex mixture of osteoinductive bone morphogenetic proteins (BMPs), as well as BMP-binding proteins that regulate BMP bioactivity and localization. Our aim was to use modern proteomic methods to identify additional BMP-binding proteins in DBM, with initial emphasis on the most abundant. Relatively large, water-soluble noncollagenous proteins (NCPs) were preferentially extracted from DBM with alkalinized urea. The insoluble residue, which contained the BMP activity, was extracted with GuHCl/CaCl2, dialyzed versus citrate, defatted, resuspended in GuHCl, dialyzed sequentially against Triton X-100 and water, pelleted, and lyophilized. The proteins in this pellet were fractionated by hydroxyapatite affinity chromatography. Proteins that copurified with BMP bioactivity were separated by SDS-PAGE. Distinct bands were excised, and the proteins in them were reduced and alkylated, digested with trypsin, eluted, and subjected to MALDI/ToF MS (matrix-assisted laser-desorption ionization time-of-flight mass spectrometry). Computer-assisted peptide fingerprint analysis of the MS profiles was used to identify C-terminal lysine-6-oxidase; dermatopontin (DPT); histones H2A2, H2A3, and H2B; and trace amounts of γ-actin. DPT is a 22-kDa, tyrosine-rich acidic matrix protein not previously recognized to be among the most abundant small proteins to copurify with BMP bioactivity in DBM. We tested the effects of DPT on BMP-2 stimulation of alkaline phosphatase (ALP) activity in C2C12 cells. BMP-2 stimulated ALP activity in C2C12 cells by 6.2-fold above basal levels. DPT alone had no effect on ALP activity in C2C12 cells. When added with BMP-2, DPT blocked 40% of the stimulatory effect of BMP-2 on ALP activity in C2C12 cells. DPT is an abundant protein in DBM, and it can inhibit the stimulatory effects of BMP-2 on ALP activity in C2C12 cells. 相似文献
994.
Shlomo Kotev-Emeth Sandu Pitaru Sara Pri-Chen Naphtali Savion 《Connective tissue research》2013,54(4):606-612
Rat stromal bone-marrow cells cultured in the presence of dexamethasone, ascorbic acid, g -glycerophosphate, and fibroblast growth factor-2 (FGF-2) express the osteogenic phenotype (Pitaru et al., J. Bone Miner. Res . 8:919-929, 1993). The purpose of this study was to establish a long-term homogeneous culture expressing the osteogenic phenotype. The cultures were routinely passaged every 5 days in the absence or presence of either or both dexamethasone and FGF-2, and the cumulative doubling number and the expression of the osteogenic phenotype were determined. Cultures treated with dexamethasone (10 m 7 M) ceased proliferation and only upon addition of FGF-2 (3 ng/ml) was a spontaneous immortalization achieved, as expressed by sustained proliferation for about 1 year, with a doubling time of 22 h and more than 300 doublings in 72 passages. Both FGF-2 and dexamethasone are required and act synergistically to maintain cell propagation, alkaline phosphatase expression, and osteocalcin secretion; however, protein content was FGF-2 dependent and the mineralization was dexamethasone dependent. Repetitive single-cell cloning tested the homogeneity and stability of the cells expressing the osteogenic phenotype in these long-term cultures. It was shown that 25% to 50% of subclones derived from clones with an osteogenic phenotype do not further express the osteogenic phenotype. In conclusion, we have established a spontaneously immortalized dexamethasone- and FGF-2-dependent rat stromal bone-marrow-derived long-term culture expressing the osteogenic phenotype. The cultures tend to lose the osteogenic phenotype, and dexamethasone supports the long-term preservation of the osteogenic phenotype. 相似文献
995.
996.
Thomas G. H. Diekwisch 《Connective tissue research》2013,54(2-3):246-256
Tissue recombination experiments and cell lineage analyses of the developing neural crest have documented the role and central pathways of migratory cells during early craniofacial development. In the present study, regional pathways of cells during late peripheral morphogenesis were investigated using the crown stage tooth organ as a model. Homing targets during tooth integument formation were analyzed to understand the fate of migratory cells involved in late tooth organogenesis and the developmental origin of periodontal tissues. After surgical removal of the oral mucosa, the oral aspect of the dental follicle of lower first mouse molar teeth was labeled using a fluorescent contact dye. Following sacrifice after 0, 2, 4, and 6 days, labeled cells were detected in the dental follicle, in the alveolar bone, and in the periodontal ligament adjacent to the molar root. The distribution of labeled tissues was reconstructed three-dimensionally via confocal microscopy. Using a tooth molar organ culture system, labeled cells within the dental follicle were documented traveling in the apical direction. Our results indicated that cell migration during tooth organogenesis was following specific pathways and that cells within the circumference of the dental follicle were migrating in the apical direction. We speculate that migratory cells passing through the dental follicle connective tissue may contribute to the formation of the periodontium. The present documentation visualizes pathways, role, and dynamics of extensive cell movements during late tooth organogenesis. 相似文献
997.
Kentaro Tokutomi Takashi Matsuura Phimon Atsawasuwan Hironobu Sato Mitsuo Yamauchi 《Connective tissue research》2013,54(5):361-366
At present, little is known about the age-related changes in jaw bones. The aim of this study was to characterize the mandibles of 6 month-old senile osteoporotic mice, SAMP6, and compare with those of age-matched controls, SAMR1. In comparison to SAMR1, SAMP6 showed thinner cortical bone, lower bone volume, and poorly organized collagen matrix. The collagen fibril diameter in SAMP6 was significantly smaller than that of SAMR1. In SAMP6 both collagen content and cross-links were lower than those of SAMR1, but the ratio of the major mature cross-link (pyridinoline) to its precursor reducible cross-link (dehydrodihydroxylysinonorleucine/its ketoamine) was higher in comparison to SAMR1. In addition, the extent of lysine hydroxylation of collagen was higher in SAMP6 than that of SAMR1. These results indicate that not only the quantity of collagen but also its quality are altered in SAMP6 and may result in the age-associated osteoporotic defects of mandibles. 相似文献
998.
999.
1000.
《Connective tissue research》2013,54(1-4):151-158
A tartrate-resistant, iron-activated and vanadate-sensitive nucleotide tri- and diphosphatase has been purified from rat bone. The purified enzyme (1,400-fold, 45% yield) has an Mr on SDS-PAGE of 30,000 Da. Hydrodynamic properties include a Stokes radius of 24Å, a sedimentation coefficient of 3.2 S and a partial specific volume of 0.748 ml/g. The calculated Mr from hydrodynamic data is 32,000 and the enzyme binds 4 mol Triton X-100/mol enzyme. Substrate specificity studies demonstrate that the enzyme is active against nucleotide tri- and diphosphates and phosphotyrosine, but not against phosphoserine or phosphothreonine. Based on the purification profile and enzyme histochemistry, showing labelling of fewer mononuclear cells using ATP compared to conventional acid phosphatase substrates, it is suggested that the acid ATPase constitutes a unique form in the family of tartrate-resistant acid phosphatases and may thus have the potential as a marker for osteoclast ontogeny and function. 相似文献