Interactions between the bone matrix proteins osteopontin and bone sialoprotein and the osteoclast integrin alpha v beta 3 potentiate bone resorption

Phorbol myristate acetate transactivates the avian beta 3 integrin gene and induces alpha v beta 3 integrin expression

1,25-Dihydroxyvitamin D3 (1,25(OH)2D3)transactivates the avian beta 3 integrin gene whose promoter contains at least two vitamin D response elements, one of which is in close proximity to a candidate AP1 site (TGACTCA). Since fos/jun and steroid hormones interact to regulate gene expression, we asked whether phorbol-12-myristate-13-acetate (PMA), which stimulates binding of fos/jun to AP1 sites, transactivates the avian beta 3 integrin gene and, if so, does the phorbol ester modulate 1,25(OH)2D3 induction of the gene. We find the candidate AP1 sequence comigrates with the consensus AP1 sequence on electromobility shift assay when incubated with recombinant c-jun protein. Furthermore, PMA prompts expression of beta 3 integrin mRNA in the avian monocytic line, HD11. The increase in message reflects transactivation of the beta 3 gene and is mirrored by plasma membrane appearance of the integrin heterodimer alpha v beta 3. Moreover, attesting to the functional significance of PMA-enhanced alpha v beta 3 expression, cells treated with concentrations of the phorbol ester that induce the beta 3 gene, spread extensively on plastic, an event blocked by an anti-alpha v antibody and a peptide mimetic known to inhibit alpha v beta 3-mediated cell attachment. Interestingly, co-addition of 1,25(OH)2D3 and PMA prompts greater expression of alpha v beta 3 than when the cells are exposed to either agent alone and PMA enhances 1,25(OH)2D3-induced beta 3 integrin mRNA expression. Thus, PMA and 1,25(OH)2D3 impact on the avian beta 3 integrin gene independently and in combination.

Expression of rat bone sialoprotein promoter in transgenic mice

Bone sialoprotein (BSP) is a major protein of the mineralized bone extracellular matrix that has been implicated in the nucleation of hydroxyapatite crystals. Our previous studies have demonstrated that BSP mRNA is expressed by differentiated osteoblasts, odontoblasts, and cementoblasts involved in de novo mineralized tissue formation in a tissue-specific and developmentally regulated manner. To determine the basis of the selective expression of the BSP gene, we have generated four transgenic mouse lines in which 2.7 kb of the rat BSP promoter ligated to a luciferase reporter gene has been stably integrated into the mouse genome. Assays of luciferase activities in 5-day-old animals has revealed consistently high levels in bone tissues with negligible activities in various other organs including kidney, liver, stomach, intestine, and spleen. In some animals, variable expression was observed in brain and skin. Temporal analyses revealed the highest luciferase expression in neonatal bones, with expression decreasing markedly with subsequent growth and development, as observed previously for the endogenous gene in rats. Immunohistochemical analysis of luciferase activity and in situ hybridization of luciferase mRNA in bone tissues show that differentiated osteoblasts express the highest levels of luciferase, consistent with the induction of endogenous gene expression. These studies demonstrate that the regulation of the BSP gene during osteoblastic differentiation, together with its tissue-specific, developmentally regulated expression, is primarily mediated within the 2.7 kb region of the promoter.

Bone sialoprotein expression in primary human breast cancer is associated with bone metastases development

Breast cancer metastasizes to bone more frequently than to any other organ, and over 80% of advanced breast cancer patients develop bone metastases. Our recent demonstration that human breast cancer cells express bone sialoprotein (BSP), a bone matrix protein, provides a possible clue for the selective affinity of breast cancer cells for bone. We tested the hypothesis that detection of BSP in primary human breast cancer could be a potential indicator of the ability of breast cancer cells to metastasize to bone. BSP expression was evaluated in the primary breast cancers of 39 patients using immunoperoxidase and two specific anti-BSP antibodies. None of these patients presented clinically or scintigraphically detectable bone metastases at the time of surgery. In the course of their disease, 22 patients developed clinically diagnosed bone metastases. Expression of BSP in breast cancer cells from patients who developed bone metastases was significantly higher (p = 0.008, according to the Mann-Whitney test) than in patients with no bone involvement. No association was found between BSP expression in the primary breast lesions and axillary lymph node metastases. BSP expression was significantly increased in infiltrating ductal carcinoma compared with infiltrating lobular carcinoma (p = 0.0023). No correlation was found between immunoreactivity to BSP antibodies and estrogen receptor (ER) status, progesterone receptor (PR) status, or age. Our data suggest that BSP could help to identity which women will develop bone metastases and provide new bases for the understanding of the molecular mechanism(s) responsible for breast cancer cells osteotropism.

Cellular distribution and regulation of NHE-1 isoform of the NA-H exchanger in the avian osteoclast

The sodium-hydrogen exchanger (NHE) has been implicated in bone resorption by osteoclasts. We have studied expression of NHE-1, an isoform of the NHE, in chicken bone marrow mononuclear phagocyte precursors during differentiation into the osteoclast phenotype in culture. A monoclonal anti-body raised against the carboxy-terminus of NHE-1 detected the presence of a 100 kDa protein (similar to the mammalian form of NHE-1) in the osteoclasts. Laser scanning confocal microscopy revealed association with the alpha(v)beta(3) integrin and focal adhesion kinase (pp(125)FAK) at the basolateral membrane (BLM) of the osteoclast in addition to a more generalized cellular distribution. A fragment of avian NHE-1 cDNA was obtained by polymerase chain reaction cloning, and it was used to characterize expression of NHE-1 transcripts in cultured chicken osteoclast precursors. The avian NHE-1 message was a 3.9 kB band on Northern analysis, which differed from the mammalian message. Retinoic acid (RA) elicited an increase in the steady-state intracellular pH (pH(1)) from 6.87 to 7.10 in the absence of bicarbonate and was inhibited by ethylisopropylamiloride, an inhibitor of Na-H exchange. Using ribonuclease protection assays, we found that NHE-1 transcripts are induced as cells differentiate in vitro and in response to 13-cis-RA. Western blot analysis indicated that protein levels also increased in response to 13-cis-RA. Our results demonstrate expression of NHE-1 in avian osteoclasts with a complex cellular distribution in culture, and NHE-1 expression is induced as cells differentiate into mature osteoclasts in response to 13-cis-RA.

Regulation of osteopontin expression by type I collagen in preosteoblastic UMR201 cells

When UMR201 cells, phenotypically preosteoblastic, were placed onto a type I collagen gel, expression of osteopontin (OP) mRNA and protein were strongly upregulated, compared to cells plated onto plastic. This upregulation was dose-dependent, with respect to the concentration of collagen gel, and was observable within hours of cells having attached and spread on the substrate. Retinoic acid (RA) acted synergistically with type I collagen at each concentration to induce a much greater increase in OP mRNA than in cells on plastic. In addition, RA increased the phosphorylation of secreted OP. The exogenous collagen substrate inhibited the growth of UMR201 cells, with the extent and duration of inhibition dependent on the collagen concentration. The effect of type I collagen was specific; plating cells on fibronectin, laminin or vitronectin did not upregulate OP expression. In contrast to the effects on OP expression, the strong RA induction of alkaline phosphatase (ALP) mRNA in cells on plastic was attenuated in cells plated on type I collagen. Growth on type I collagen did not change OP mRNA stability or transcription rate, although there was decreased stability of the ALP mRNA in cells on collagen.

Characterization of the bone sialoprotein (BSP) gene promoter

Bone sialoprotein is a 34 kDa phosphorylated and sulphated glycoprotein that is essentially unique to mineralizing connective tissues. Recent studies on the developmental expression of BSP mRNA and the temporo-spatial appearance of the protein during bone formation in vivo and in vitro have demonstrated that BSP is expressed by differentiated osteoblasts and that it may function in the initial nucleation of hydroxyapatite crystals in de novo bone formation. To study the cell-specific regulation of BSP we have isolated genomic clones that encompass the BSP promoter regions of both the human and rat genes. These promoters are characterized by a highly conserved region (BSP Box) that extends upstream from the transcription start site to nt -370. Within this region the immediate promoter is further characterized by a unique inverted TATA box and an inverted CCAAT box, both of which are required for basal transcriptional activity. The TATA box is overlapped by a vitamin D3 response element (VDRE) which appears to mediate vitamin D suppression of BSP gene transcription by competing with the TATA-binding protein (TBP) for occupancy of the site of the pre-initiation complex formation. Mutation of the inverted TATA box into a normal TATA sequence increases transcription slightly but does not affect the functionality of the VDRE indicating that the orientation of the TATA box is not critical for these functions. Further upstream an AP-1 site, overlapped by a steroid hormone response-like sequence, mediates down-regulation of BSP transcription induced by TPA that is abrogated by a complex interaction between Jun and the glucocorticoid receptor protein induced by dexamethasone. Thus, the characterization of approximately 3 kb of the BSP promoter and approximately 2 kb of the first intron has revealed several sites of transcriptional regulation that are important in regulating BSP expression and, consequently, bone formation.

Protein kinases of cultured chicken osteoblasts that phosphorylate extracellular bone proteins

Cytosolic and microsomal protein kinase preparations from cultured chicken osteoblasts were found to phosphorylate up to six major proteins with Mrs 66, 58, 50, 36, 32, and 22 kDa in chicken bone extract. Use of heparin led to the conclusion that these proteins were predominantly phosphorylated by factor-independent protein kinase (FIPK) present both in microsomal and cytosolic preparations. It was confirmed that microsomal preparation contained predominantly FIPK, whereas cytosolic preparation contained additional kinases, that can phosphorylate the bone proteins. Use of purified chicken bone osteopontin (OPN) (58 kDa) and recombinant OPN led to the same conclusions. The identify of the protein kinases was clearly established by using a series of synthetic peptide substrates. Quantitative analysis utilizing pure protein kinases and purified chicken bone OPN, recombinant mouse OPN, and bovine bone OPN and BSP led to introduction of approximately 9 moles of phosphate/mole of OPN and 6.6 moles phosphate/mole bovine bone sialoprotein (BSP) by casein kinase II. cGMP-dependent protein kinase and protein kinase C both introduced 0.5-1.2 moles phosphate/mole of OPN and BSP, whereas cAMP-dependent protein kinase led to no significant phosphorylation of OPN or BSP. Consistent with the above results, sites of phosphorylation identified for OPN (metabolically labeled) and BSP (labeled by casein kinase II) revealed that predominant phosphorylated sites have recognition sequences for FIPK.

Prostaglandin E2 stimulates osteoclast-like cell formation and bone-resorbing activity via osteoblasts: role of cAMP-dependent protein kinase

Prostaglandin E2 (PGE2) is an important local regulator in bone. The present study was performed to investigate the effect of PGE2 on osteoclast-like cell formation and bone-resorbing activity of mature osteoclasts in the presence or absence of osteoblasts, PGE2 (10(-8) to 10(-6) M) significantly stimulated osteoclast-like cell formation in osteoblast-containing mouse bone cell cultures, although it did not affect osteoclast-like cell formation from hemopoietic blast cells supported by granulocyte-macrophage colony-stimulating factor in osteoblast-free mouse spleen cell cultures. The conditioned medium from osteoblastic UMR-106 cells pretreated with PGE2 (10(-8) and 10(-6) M) significantly stimulated osteoclast-like cell formation from hemopoietic blast cells. PGE2 also significantly stimulated the bone-resorbing activity of mature osteoclasts in osteoblast-containing mouse bone cell cultures. In contrast, PGE2 significantly inhibited the bone-resorbing activity and osteopontin mRNA expression in isolated rabbit osteoclasts. Rp-cAMPS, a direct protein kinase (PKA) antagonist, significantly inhibited PGE2-stimulated osteoclast-like cell formation and the bone-resorbing activity of mature osteoclasts, although protein kinase C inhibitors, dantrolene (an inhibitor of calcium release from the intracellular calcium pool) and voltage-dependent calcium channel blockers did not affect PGE2-stimulated osteoclast-like cell formation. In conclusion, PGE2 stimulated osteoclast-like cell formation and bone-resorbing activity in mouse bone cell cultures presumably through osteoblasts. The activation of PKA is linked to PGE2-stimulated osteoclast-like cell formation and bone-resorbing activity.

Regulation of bone sialoprotein and osteopontin mRNA expression by dexamethasone and 1,25-dihydroxyvitamin D3 in rat bone organ cultures

Bone sialoprotein (BSP) and osteopontin (OPN) are prominent components of the extracellular matrix of mineralized connective tissues that have been implicated in the formation and remodelling of bone. Although these proteins have similar biochemical properties and are expressed by bone cells during bone formation it has been suggested that they have different functions and that their expression is regulated independently by hormones and cytokines. The precise role of these proteins has, however, yet to be firmly established. Since steroid hormones strongly influence the formation of bone we have analyzed the effects of glucocorticoids and 1,25 dihydroxyvitamin D3 (1,25-(OH)2D3) on the expression of BSP and OPN mRNAs in developing rat bone in vitro using in situ hybridization. In these studies it has been possible to identify the nature and spatial distribution of the cells that respond to these hormones by changes in sialoprotein expression. When cultured in the presence of the synthetic glucocorticoid, dexamethasone (dex), expression of BSP mRNA by hypertrophic cartilage cells in the tibiae and mandible was dramatically increased as were the number of responding cells indicating that glucocorticoids promote differentiation of hypertrophic cartilage cells as well as osteoblasts. Dexamethasone also stimulated a marked (> 5-fold) increase in OPN expression by osteoblasts and cells lining endosteal and periosteal bone surfaces. In contrast to dex, 1,25-(OH)2D3 suppressed BSP expression in osteoblastic cells whereas OPN expression was strongly (> 5-fold) stimulated in all three cultured bone tissues. Histological examination of the tissues showed that cell viability was retained over the culture period. However, in the presence of 1,25-(OH)2D3 considerable resorption of the tissue was evident, with cement and reversal lines being prominent. The increased expression of BSP and OPN by dex is consistent with the stimulation of bone formation by glucocorticoids, whereas the differential effects of 1,25-(OH)2D3 on BSP and OPN may reflect a stimulation of bone remodelling.

Bone acidic glycoprotein-75 self-associates to form large macromolecular complexes

Bone acidic glycoprotein-75 (BAG-75) displays a strong propensity to self-associate to form large fibrillar complexes above concentrations of 7 x 10(-8) M; acidic phosphoproteins osteopontin and bone sialoprotein do not form similar complexes. Although the majority of the data supporting this conclusion is derived from in vitro studies, the fact that similar sized complexes are observed in crude extracts of bone and calcified cartilage suggests that macromolecular BAG-75 complexes are also a component of mineralized matrices in vivo. An awareness of the existence of complexes in extracts from bone necessitates that these forms are accounted for in terms of the relative amounts of individual acidic phosphoproteins in bone matrix. We now estimate that the amount of BAG-75 in rat calvarial bone is equivalent to that of osteopontin. While BAG-75 is capable of binding up to 139 atoms of calcium/mole with an average affinity constant of 0.5-1.0 x 10(-3) M, millimolar concentrations of calcium are not required for self-association. Assuming macromolecular diffusion within osteoid is restricted, osteoblastic cells could control the extent of self-association through the rate at which BAG-75 is synthesized and secreted into the osteoid matrix. Based on these findings, we hypothesize that BAG-75 self-associates to form fibrillar complexes in vivo which function in a supportive mechanical role and/or as an electronegative ionic barrier. Electronegative BAG-75 barrier structures could play a role in concentrating phosphate ions within bone matrix, thus facilitating mineralization.

Dexamethasone stimulates luciferase gene expression through the rat bone sialoprotein gene promoter in transgenic mice

Bone sialoprotein (BSP) is expressed by differentiated osteoblasts during the initial formation and mineralization of bone matrix. Studies using transgenic mice harboring 2.7 kb of the rat BSP promoter linked to a luciferase reporter gene have shown luciferase activity in bone and other mineralized tissues while most soft tissues tested expressed a much lower level of the reporter gene. To study regulation of the transgene, mice were administered dexamethasone (dex) by intramuscular injection. After 4 h and 24 h, various tissues were dissected from the treated mice as well as from untreated transgenic littermates. Luciferase assays showed that dex stimulated expression of the transgene significantly. In bone tissues, dex increased the average luciferase activity 1.6- to 11-fold compared with control tissues from untreated transgenic mice. The luciferase activity in lung, liver and kidney remained at a low level and showed no increase with dex treatment. In some animals, however, the luciferase activity in brain and skin was also increased after dex administration. These experiments indicate that a transgene comprising 2.7 kb of the rat BSP promoter linked to a luciferase reporter is regulated in a tissue and developmental stage-dependent manner and that glucocorticoid-induced stimulation of BSP gene expression may be mediated within this region of the promoter.

A biochemical characterization of the binding of osteopontin to integrins alpha v beta 1 and alpha v beta 5

Osteopontin (OPN) is an extracellular matrix protein that binds to integrin alpha v beta 3. Here we demonstrate that two other integrins, alpha v beta 1 and alpha v beta 5, are also receptors for OPN. Human embryonic kidney 293 cells adhere to human recombinant osteopontin (glutathione S-transferase-osteopontin; GST-OPN) using integrin alpha v beta 1. When the 293 cells are transfected with the beta 5 subunit, they can also adhere to GST-OPN using integrin alpha v beta 5. Divalent cations regulate the binding of GST-OPN to both alpha v beta 1 and alpha v beta 5. Mg2+ and Mn2+ support the binding of GST-OPN to these integrins but Ca2+ does not. The highest affinity is observed in Mn2+. In the presence of this ion, the affinity of GST-OPN for alpha v beta 1 is 18 nM and the affinity for alpha v beta 5 is 48 nM. The antibody 8A2, which is an agonist for beta 1, promotes the adhesion of 293 cells to GST-OPN even when Ca2+ is present. This observation suggests that cellular events could modulate the affinity of alpha v beta 1 for OPN. Collectively, these findings prove that integrins alpha v beta 1, alpha v beta 3, and alpha v beta 5 have similar affinity for OPN. Therefore, all three integrins must be considered when evaluating the biological affects of OPN.

Human osteoclasts, not osteoblasts, deposit osteopontin onto resorption surfaces: an in vitro and ex vivo study of remodeling bone

Osteopontin is a phosphorylated glycoprotein believed to be secreted by osteoblasts and deposited into the bone matrix to facilitate osteoclasts adhesion or to initiate osteoid mineralization. Previously we have presented contradictory evidence that osteoclasts express osteopontin mRNA in human remodeling bone. The aim of this study was to ascertain whether osteoclasts synthesize and deposit osteopontin in resorption lucunae. We characterized expression of osteopontin mRNA and protein expression in both intramembranous and endochondral ossification, as well as remodeling bone, in the human osteophyte. Osteopontin mRNA was expressed in osteoclast with tartrate-resistant acid phosphatase (TRAP) positivity within resorption lacunae. The osteoclasts and immediate resorption surfaces also expressed osteopontin. However, osteopontin mRNA and protein were weak (transient) or undetectable in osteoblasts at adjacent bone formation sites; no osteopontin expression was observed in the osteoid, although occasional reactivity was observed in osteocytes and the mineral-osteoid interface. In contrast, osteopontin was highly expressed in the osteoblasts and matrix of woven bone during intramembranous and endochondral ossification. The matrix expression correlated with mineralization; however, in some instances osteopontin deposition was observed prior to mineralization. Similarly, osteopontin expression was evident in cartilage matrix, solely at foci of mineralization. Chondroclasts expressed osteopontin mRNA and protein: the surfaces of resorbed calcified cartilage also expressed osteopontin. Abnormal, unmineralized matrices apparently lacked deposited osteopontin, but were nevertheless resorbed by osteoclasts; the osteoclasts and resorbed surfaces expressed no osteopontin protein. That osteoclasts are responsible for the deposition of osteopontin was confirmed in vitro, whereby resorption pits in whale dentine and bovine bone slices, produced by isolated human osteoclasts, contained deposited osteopontin. Osteopontin may facilitate the adhesion (or detachment) of the osteoclast to the bone surface. Alternatively, the possibility that osteopontin may act as a postresorptive signal to recruit osteoblasts, or to polarize and direct the mineralization of the formed osteoid, is discussed.

The anatomy of bone sialoprotein immunoreactive sites in bone as revealed by combined ultrastructural histochemistry and immunohistochemistry

Bone sialoprotein was immunolocalized at the EM level in thin Lowicryl K4M sections of rat bone. Because of the unconventional EM morphology of the bone matrix seen in thin demineralized acrylate sections, the pattern of immunolabeling was compared with detailed structural images of demineralized bone obtained using an en bloc treatment of tissue samples with the cationic electron 'dye,' Malachite Green (MG), which provides stabilization and retention of anionic material throughout specimen processing. A system of structures corresponding to the sites of bone sialoprotein (BSP) immunoreactivity, as seen in Lowicryl K4M this sections, could be readily identified in the MG-treated, epoxy thing sections. This system includes the cement lines, and aggregates of similar material within mineralized bone and mineralizing osteoid. The virtual identity of BSP distribution with the arrangement of the MG-visualized material indicates that a BSP-enriched, noncollagenous phase can be demonstrated using different, unrelated tissue preparation and imaging protocols for EM. Besides improving our understanding of the distribution of bone sialoprotein in bone, these data assign a previously unrecognized structural dimension to noncollagenous material in the bone matrix.

Molecular mechanisms of bone resorption

This review focuses on osteoclast ontogeny and function, emphasizing three aspects. We describe how a combination of laboratory models available to study the cell plus examination of the osteopetroses, a family of sclerotic diseases of the skeleton, have yielded major insights into osteoclast ontogeny and function. We proceed to describe the cell and molecular machinery enabling osteoclasts to resorb bone. The final, and most speculative, aspect of the review addresses possible mechanisms by which the osteoclast assumes its characteristic morphology, that of a polarized cell on bone. Since little direct information has been forthcoming as to how the osteoclast polarizes, we draw on other polarized cells. In particular, we examine the role of microtubules and members of the small GTPase family, the latter mediating polarized targeting of intracellular vesicles. In the case of the osteoclast, such vesicles probably represent the origin of the highly convoluted ruffled membrane, the cell's characteristic bone resorptive organ.

Osteopontin expression is increased in the heritable cardiomyopathy of Syrian hamsters

BACKGROUND

Osteopontin, a noncollagenous matrix protein, is transiently expressed in the heart after experimental cardiac injury, but its expression in states of continuing cardiac remodeling is unknown. We evaluated osteopontin expression in the heritable cardiomyopathy of the Syrian hamster.

METHODS AND RESULTS

Hamster hearts were obtained for RNA isolation and analysis and in situ hybridization from two groups: normal control animals (n = 4) and untreated cardiomyopathic hamsters (n = 5). Osteopontin mRNA was 12-fold greater in cardiomyopathic hearts compared with normal controls (1.76 +/- 0.31 versus 0.14 +/- 0.04 arbitrary units normalized to GAPDH, mean +/- SEM, P < .05). In situ hybridization was used to define the origin of osteopontin in the heart. Osteopontin mRNA above background levels was not detected in sections from noncardiomyopathic hamster hearts but was readily detected in sections from cardiomyopathic hamsters, in which it originated in cells morphologically consistent with tissue macrophages.

CONCLUSIONS

In the hamster, osteopontin is expressed in heritably cardiomyopathic hearts under conditions of chronic injury and repair, and the source of ostopontin message appears to be issue macrophage-like cells in foci of inflammation. This model could be used to evaluate the biological role of osteopontin in myocardial inflammation and remodeling.

Expression of bone sialoprotein mRNA during bone formation and resorption induced by colchicine in rat tibial bone marrow cavity

In the rat tibial bone marrow cavity, following colchicine injection, there is a phase of osteogenesis in which bone trabeculae replace the necrotic bone marrow tissues and fill the marrow cavity. The newly formed bone is subsequently resorbed by osteoclasts and normal bone marrow is restored. In this study, we correlated these morphologic events with the pattern of gene expression of bone sialoprotein (BSP), an extracellular matrix protein in mineralized tissues, to elucidate the possible functions of BSP in bone formation and resorption in vivo. The expressions of osteopontin (OPN) and type I collagen were also examined. Northern hybridization of the tibia demonstrated that OPN mRNA was gradually increased and expressed at a maximal level 10 days after colchicine injection (during the bone resorption process), while BSP mRNA expression already reached a maximal level at day 6 (during the initial process of bone formation). Its expression was, thus, quite temporary at the beginning of bone formation and different from that of type I collagen, which was continually elevated from days 6 to 10. In situ hybridization of the newly formed bone induced in the tibia revealed that BSP mRNA was evenly expressed in most osteoblasts and osteocytes, moreover in interconnecting colonies of spindle-shaped cells, possibly preosteoblasts, at day 6. At day 10, however, its expression became restricted to some cells on the bone surfaces, some osteoblasts, and most osteoclasts. These observations suggest that BSP may play an important role mainly in the initiation of bone formation and is also associated with the functions of osteoclast in vivo.

Osteopontin is a constitutive component of normal elastic fibers in human skin and aorta

Osteopontin is an acidic matrix protein, mainly expressed in mineralized tissues, kidney and atherosclerotic vessels; its biological role is still largely undefined. In the present study, immunocytochemical approaches showed that osteopontin is localized within normal elastic fibers of human skin and aorta. Antibodies raised against human bone osteopontin (LF7) or against human osteopontin synthetic peptide (amino acids 1-10, LF19) recognized epitopes associated with the amorphous material within the elastic fibers. Elastic fiber-associated microfibrils were always negative. The positivity for osteopontin of the elastic fibers was independent of age and could be observed in fetal skin and aorta as well as in the same of children, young adults and old subjects. The altered elastic fibers in the skin of old individuals were only fairly positive for osteopontin. The presence of osteopontin within the elastic fibers suggests that it may play a role against the observed tendency of elastic fibers to favor mineral precipitation. A role of osteopontin in modulating crystal nucleation and growth in mineralizing tissues and, more generally, in conditions in which mineral precipitation should be controlled is also possible.

An antagonist of integrin alpha v beta 3 prevents maturation of blood vessels during embryonic neovascularization

Experimental data in this study demonstrate that integrin alpha v beta 3 is fundamentally involved in the maturation of blood vessels during embryonic neovascularization (vasculogenesis). Integrin alpha v beta 3 was specifically expressed on the surface of angioblasts during vessel development in quail embryos and vitronectin, a ligand for alpha v beta 3, localized to the basal surface of these cells. More importantly, microinjection of the anti-alpha v beta 3 monoclonal antibody, LM609, disrupted the normal pattern of vascular development. After exposure to LM609 the angioblasts in experimental embryos appeared as clusters of rounded cells lacking normal cellular protrusions. This led to disruption of lumen formation and abnormal vessel patterning. These findings demonstrate that during vasculogenesis ligation of integrin alpha v beta 3 on the surface of primordial endothelial cells is critical for the differentiation and maturation of blood vessels. Similar studies on chicken chorioallantoic membrane showed that LM609 blocks angiogenesis. Together the two studies suggest that integrin alpha v beta 3 plays a role in neovascularization of tissues.

Osteopontin and the bone remodeling sequence. Colloidal-gold immunocytochemistry of an interfacial extracellular matrix protein

Relative to other noncollagenous, extracellular matrix proteins in mineralized tissues, colloidal-gold immunocytochemistry has demonstrated that the ultrastructural distribution of osteopontin (OPN) is unique in that this protein preferentially accumulates at mineralized tissue interfaces. In bone, this protein is present as a major component of cell-matrix and matrix-matrix interfacial structures called cement lines and laminae limitantes. In the present article, the implications of this distinct tissue distribution are discussed in terms of the bone remodeling sequence, and a detailed account of the secretion, accumulation and potential role of OPN is presented and related to current theory on the cellular and extracellular matrix events associated with basic multicellular unit (BMU)-based bone remodeling. In this context, a proposal is made describing the production of this protein as one of the earliest, and latest, secretory activities of the osteoblastic lineage, and that this activity manifests itself morphologically as a cement line ('plane') and a lamina limitans, respectively, at bone matrix interfaces. When integrated with other, known functional characteristics of this protein, the present morphological and compositional data indicate that OPN in cement lines and laminae limitantes may participate in initial and late extracellular matrix organization and mineralization, matrix-matrix/mineral adhesion and/or cell adhesion at bone interfaces.

Regulation of osteopontin expression in osteoblasts

Osteopontin (OPN) is a prominent bone matrix protein that is synthesized by osteoblastic cells. To elucidate the function of OPN in bone we studied the regulated expression of the rat OPN protein during bone formation in vivo and in vitro. OPN mRNA is expressed by preosteoblastic cells early in bone formation, but the highest expression is observed in mature osteoblasts at sites of bone remodelling. A low-phosphorylated, 55-kDa form of OPN is produced by the preosteoblastic cells, whereas osteoblasts produce a highly phosphorylated, 44-kDa protein; the two forms of OPN corresponding to pp69 and pp62 in transformed rat cells. The synthesis of the 55-kDa OPN correlates with the formation of a 'cement' matrix that is synthesized prior to bone deposition, whereas the 44-kDa OPN synthesized by osteoblasts associates rapidly with hydroxyapatite, possibly regulating crystal growth, and may also provide a substratum for osteoclast attachment. Expression of OPN mRNA is upregulated by growth and differentiation factors (PDGF, EGF, TGF-beta and BMP-7/OP-1) and by mechanical stress, which promote bone formation, as well as by osteotropic hormones (retinoic acid and vitamin D3), which can promote bone resorption and remodelling. However, OPN mRNA is down-regulated by bisphosphonates, which abrogate bone resorption. Regulation of OPN expression is, therefore, consistent with a multiplicity of functions for OPN that involve specific structural motifs in both the synthesis and resorption of bone.

Osteopontin expression in cardiovascular diseases

Adhesive interactions are recognized requirements for cellular proliferation, migration and differentiation during normal morphogenesis as well as disease. By differential cloning, osteopontin was identified as an adhesive protein upregulated during vascular remodeling and neointima formation in both rat models and human vascular diseases including atherosclerosis and restenosis. In functional studies, purified osteopontin promoted adhesion, focal contact formation, and migration of vascular smooth muscle and endothelial cells. Utilizing neutralizing antibodies, three integrin-type receptors, alpha v beta 3, alpha v beta 1, and alpha v beta 5 were found to support cellular adhesion to osteopontin. In contrast, only cells containing the alpha v beta 3 integrin could migrate towards an osteopontin gradient, demonstrating for the first time that different functions of osteopontin are mediated via distinct receptors. These results suggest a model whereby osteopontin, via its integrin-type receptors, contributes to vascular remodeling during development and disease by facilitating smooth muscle migration and simultaneously promoting endothelial coverage of the affected area.

Retinoic acid induces osteoclast-like cell formation by directly acting on hemopoietic blast cells and stimulates osteopontin mRNA expression in isolated osteoclasts

Although retinoic acid (RA) has been considered to be a bone-resorbing agent both in vivo and in vitro, its mechanism remains still unclear. The present study was performed to examine the effect of RA on osteoclast-like cell formation in the presence or absence of osteoblasts and to study whether RA would affect osteopontin mRNA expression in isolated rabbit osteoclasts. RA (10(-8) and 10(-6) M) significantly stimulated the formation of osteoclast-like cell in osteoblast-containing mouse bone cell cultures. Also, RA caused a stimulation of osteoclast-like cell formation from hemopoietic blast cells supported by granulocyte macrophage-colony stimulating factor (GM-CSF) in mouse spleen cell cultures. However, RA did not affect blast cell number in these cultures and significantly inhibited GM-CSF-stimulated proliferation of hemopoietic blast cells. On the other hand, RA stimulated the bone-resorbing activity of mature osteoclasts in mouse bone cell cultures. Moreover, RA caused a stimulation of osteopontin mRNA expression in isolated rabbit osteoclasts. The present study demonstrated for the first time that RA stimulated osteoclast-like cell formation, presumably through directly acting on the hemopoietic blast cells, and that RA stimulated osteopontin mRNA expression in isolated rabbit osteoclasts.

Site-directed mutagenesis of the arginine-glycine-aspartic acid sequence in osteopontin destroys cell adhesion and migration functions

Osteopontin (OPN) is a secreted calcium-binding phosphoprotein produced in a variety of normal and pathological contexts, including tissue mineralization and cancer. OPN contains a conserved RGD (arg-gly-asp) amino acid sequence that has been implicated in binding of OPN to cell surface integrins. To determine whether the RGD sequence in OPN is required for adhesive and chemotactic functions, we have introduced two site-directed mutations in the RGD site of the mouse OPN cDNA, in which the RGD sequence was either deleted or mutated to RGE (arg-gly-glu). In order to test the effect of these mutations on OPN function, we expressed control and mutated mouse OPN in E. coli as recombinant glutathione-S-transferase (GST)-OPN fusion proteins. Control mouse GST-OPN was functional in cell adhesion assays, supporting attachment and spreading of mouse (malignant PAP2 ras-transformed NIH 3T3, and, to a lesser extent, normal NIH 3T3 fibroblasts) and human (MDA-MB-435 breast cancer, and normal gingival fibroblast) cells. In contrast, neither of the RGD-mutated OPN proteins ("delRGD" or "RGE") supported adhesion of any of the cell lines, even when used at high concentrations or for long assay times. GRGDS (gly-arg-gly-asp-ser) peptides inhibited cell adhesion to intact GST-OPN, as well as to fibronectin and vitronectin. In chemotaxis assays, GST-OPN promoted directed cell migration of both malignant (PAP2, MDA-MB-435) and normal (gingival fibroblast, and NIH 3T3) cells, while RGD-mutated OPN proteins did not. Together these results suggest that the conserved RGD sequence in OPN is required for the majority of the protein's cell attachment and migration-stimulating functions.

Characterization of an avian bone sialoprotein (BSP) cDNA: comparisons to mammalian BSP and identification of conserved structural domains

Bone sialoprotein (BSP) is one of the major noncollagenous proteins found in mineralized vertebrate tissue. It is an acidic glycoprotein containing a high sialic acid content and is phosphorylated on several of its Ser and Thr residues. While it has been extensively characterized from various mammalian species, little is known about its sequence or expression in lower vertebrates. The cloning and characterization of several cDNAs encoding the chicken bone sialoprotein are reported here. A partial cDNA clone encoding the carboxyl terminus of the protein was initially isolated from a lambda GT11 expression library using a polyclonal antibody gains BSP purified from chicken bone matrix. Subsequently, several additional clones were obtained by further screening and by reverse transcription polymerase chain reaction (RT-PCR). Three overlapping clones encompassing about 1 kb, which included the complete coding sequence for BSP, were analyzed. The deduced amino acid sequence revealed that chicken BSP contains 276 amino acid residues. Although the overall identity between chicken and mammalian BSP is only approximately 39%, the diversity in amino acid sequence occurs mostly between the major functional domains of this molecule. These domains include: (1) three acidic poly-Glu regions; (2) two tyrosine-rich domains, which may be sites for protein sulfation; (3) several casein kinase II phosphorylation sites; (4) an Asn glycosylation site; and (5) an RGD cell-binding motif. Of interest in the chicken BSP is the identification of two additional RGD motifs within the avian sequence, unlike the mammalian forms of BSP which has only one.(ABSTRACT TRUNCATED AT 250 WORDS)

Peptide ligands for integrin alpha v beta 3 selected from random phage display libraries

The integrin alpha v beta 3 binds promiscuously to cell-adhesive proteins: vitronectin, fibronectin, and several others containing the RGD motif. We have explored molecular recognition by alpha v beta 3 through selection of ligands from large random libraries of peptides displayed on phage. Ligands bound by alpha beta 3 consisted primarily of RGD peptides; however, these peptides showed considerable heterogeneity with respect to the identities of amino acids flanking RGD. The tolerance of alpha v beta 3 for RGD peptides of diverse composition is consistent with its role in vivo as a versatile receptor for RGD-containing extracellular matrix proteins. Peptide ligands for alpha v beta 3 also included a novel binding sequence, identical to a tetrapeptide found in vitronectin, which is a candidate for a synergistic site in this adhesive protein that may act in concert with RGD to promote molecular recognition.

Interleukin-4 induces expression of the integrin alpha v beta 3 via transactivation of the beta 3 gene

Osteoclastic bone resorption is dependent upon cell-matrix recognition. This process is mediated by the integrin alpha v beta 3 whose expression is enhanced, in avian osteoclast precursors, by bone-seeking steroids. The purpose of this study was to determine if bone-modulating cytokines impact on alpha v beta 3 expression by mouse marrow macrophages (BMMs), known to differentiate into osteoclasts. Of the cytokines tested. Interleukin-4 (IL-4) is most effective in increasing beta 3 mRNA levels by a mechanism involving transactivation of the beta 3 gene. Moreover, IL-4 augmented beta 3 mRNA is mirrored by plasma membrane appearance of alpha v beta 3. As IL-4 induces beta 3 and not alpha v mRNA, the beta 3 chain appears to regulate surface expression of the heterodimer. The functional significance of IL-4-induced alpha v beta 3 is underscored by the fact that, while attachment to fibronectin is unaltered, treatment of BMMs with the cytokine enhances alpha v beta 3-mediated binding to vitronectin 5-fold. Expression of this heterodimer by BMMs driven along a non-osteoclastic lineage suggests alpha v beta 3 may play a role in the inflammatory response of macrophages.

Bone matrix proteins in osteogenesis and remodelling in the neonatal rat mandible as studied by immunolocalization of osteopontin, bone sialoprotein, alpha 2HS-glycoprotein and alkaline phosphatase

The neonatal rat mandible was used as a model to study bone formation, mineralization, quiescence, and resorption, using immunolocalization and a variety of tissue-processing techniques. Monospecific antibodies for osteopontin (OPN), bone sialoprotein (BSP), alkaline phosphatase (AP) and alpha 2HS-glycoprotein (alpha 2HS-GP) were used on fixed paraffin-embedded tissue, fixed frozen tissue and unfixed frozen tissue. Immunostaining was correlated with mineral content by two procedures, the von Kossa and the morin techniques. Morin fluorescence was used with secondary immunostaining to provide a way of closely correlating bone matrix proteins and matrix mineralization. Co-immunolocalization procedures were used to compare the sites of bone proteins in the matrix. AP was found earliest during osteogenic cell differentiation, appearing in the preosteoblasts, followed by OPN and BSP, which first appeared in osteoblasts. alpha 2HS-GP expression was not observed in cells. The results provide clear evidence for the presence of OPN in osteoid, while BSP and alpha 2HS-GP were confined to the mineralized matrix. Immunostaining of bone proteins is highly technique-dependent: immunolocalization investigations required several methods of approach to ensure adequate demonstration of these proteins in cells and matrix. The results support the contention that osteopontin is multifunctional in bone metabolism, and that alpha 2HS-GP, though produced in the liver, is abundant in bone matrix and may also have a function in bone metabolism.

Further characterization of interaction between bone sialoprotein (BSP) and collagen

Bone sialoprotein (BSP) has an affinity to collagen fibrils [25]. A role of carbohydrate chains in the affinity was examined by removing sialic acids of BSP. Neuraminidase treatment of the BSP increased the binding to collagen. Binding sites of BSP on collagen were examined by biochemical and electron-microscopic methods. Purified bovine BSP was labeled with biotin. Collagen alpha chains or CNBr peptides were separated by electrophoresis and transfered to nitrocellulose membranes. The membranes were incubated with the biotin-labeled BSP, and the bound BSP was visualized with avidin conjugated with alkaline phosphatase. The labeled BSP was preferentially bound to the alpha 2 chain, and peptides derived from alpha 2 chain. In another experiment, the labeled BSP was incubated with reconstituted native collagen fibrils. The mixture was put on a copper grid, reacted with avidin conjugated with gold particles, and observed with an electron microscope. The gold particles were seen mainly within hole zones of the fibrils. BSP bound to the alpha 2 chain within the hole zones may regulate the onset of calcification at hole zones and the cell binding to collagen fibrils.

Approach to discovering novel therapeutic agents for osteoporosis based on integrin receptor blockade

On a global scale, osteoporosis is a major and growing public health problem. In the United States, osteoporosis is present in 24 million people (mostly women) and contributes to more than 1.3 million fractures/year. Serious morbidity and mortality result from these fractures. Current therapies for osteoporosis are few, efficacy is limited, and side effects problematic. Fundamental to the pathophysiology of osteoporosis is an imbalance between the tightly coupled processes of bone resorption and bone formation that characterize normal bone remodeling. Our laboratory is engaged in a research effort focused on elucidating the role of the osteoclast integrin in bone resorption, defining the nature of ligand-integrin interactions, and developing antagonists for cell surface adhesion molecules, particularly the alpha v beta 3 vitronectin-like integrin receptor present on the surface of human osteoclasts. Peptides containing the internal arginine-glycine-aspartic acid (RGD) motif have been shown to inhibit osteoclast-mediated bone resorption in vivo. We are now designing more potent and selective inhibitors of bone resorption as a potential new mechanism-based therapeutic approach to osteoporosis based on a novel mechanism. In an effort to rapidly identify the highest affinity ligands for the human alpha v beta 3 integrin, we have generated combinatorial peptide libraries containing substantial structural diversity. For instance, based on all possible sequence combinations of extracellular matrix proteins known to bind alpha v beta 3, we recently synthesized and chemically analyzed a library of 360,000 peptides, all of which contain RGD.(ABSTRACT TRUNCATED AT 250 WORDS)

Identification of osteopontin (OPN) mRNA and protein in the rat testis and epididymis, and on sperm

We have identified a bone cell adhesion molecule, osteopontin, in the rat testis and epididymis by Northern analysis, RT-PCR, Western immunoblot analysis and immunocytochemistry. A polyclonal antibody raised against rat epididymal fluid proteins was used to detect fusion proteins produced by a testis lambda gt11 cDNA library. Sequence analysis of one of four positive cDNA clones, designated as pREP5, revealed identity with the rat osteopontin (OPN) cDNA. The partial cDNA clone pREP5 encompasses 64% of the 1,457 residues reported by Oldberg et al. (1986; Proc Natl Acad Sci USA 83:8819-8823). Immunoblot analysis with a monoclonal antibody against OPN detects the presence of immunoreactive polypeptides in rat testis homogenates as well as in epididymal fluid and sperm extracts. Immunocytochemical localization to the basal and adluminal region of the seminiferous tubule suggests that OPN could be a Sertoli cell product. Indeed, Northern blot analysis of testicular cell preparations demonstrated positive hybridization to Sertoli cell-enriched RNA, but not to RNA isolated from interstitial cell preparations or to isolated germ cell RNA preparations. OPN is also detected in the rat epididymis and on epididymal spermatozoa. This is the first report on the presence of OPN mRNA and protein in rat testis and epididymis and on the presence of OPN on the surface of epididymal spermatozoa. The characterization of this protein in other tissue suggests that OPN could play a role in testicular cell adhesion during spermatogenesis and/or epididymal maturation, although other potential functions in the male reproductive tract are discussed.

Role of two mineral-associated adhesion molecules, osteopontin and bone sialoprotein, during cementogenesis

Adhesion molecules and their cell membrane receptors are known to play important regulatory roles in cell differentiation. Consequently, the following experiments were conducted to determine the role of two adhesion molecules, bone sialoprotein (BSP) and osteopontin (OPN) in tooth root formation. Developing murine molar tooth germs at sequential stages of development (developmental days 21-42) were analyzed using immunohistochemical and in situ hybridization techniques. While BSP was localized to alveolar bone and odontoblasts early in development, BSP was distinctly localized to the cemental root surface at latter periods coincident with the initiation of root formation and cementogenesis. Conversely, OPN was distributed in a nonspecific fashion throughout the PDL and the eruption pathway of the forming tooth. In situ hybridization confirmed that cells lining the root surface express BSP. The fact that BSP is specifically localized to the cemental surface suggests that this protein is involved in cementoblast differentiation and/or early mineralization of the cementum matrix. Localization of OPN to non-mineralized tissues further suggests that OPN functions as an inhibitor of mineralization during periodontal ligament formation. These findings collectively suggest that BSP and OPN are intimately involved in the sequence of cellular and molecular events accompanying cementogenesis.

Recognition of cryptic sites in human and mouse laminins by rat osteoclasts is mediated by beta 3 and beta 1 integrins

Laminins may be encountered by osteoclasts and their precursors in basement membranes when they migrate from periosteal vasculature during skeletal development and in pathological situations. We have examined the recognition by osteoclasts of intact laminins and their proteolytic derivatives, and analysed the mechanism of adhesion. Rat osteoclasts fail to bind intact mouse Engelbreth-Holm-Swarm (EHS) laminin (3% adhesion relative to adhesion to foetal calf serum proteins) and bind only weakly to native human placental laminin (13%) or human merosin (9%). Pepsin treatment of native mouse EHS and human laminins increased osteoclast adhesion. Rat osteoclasts adhered to mouse EHS laminin-derived P1 fragment (70%), but failed to bind the E8 fragment, which contains adhesion sites recognised by some integrins. Binding to human and mouse P1 laminins was abolished by treatment with RGD-containing peptides and required divalent cations, but not by YIGSR peptide. Combinations of monoclonal antibodies to rat beta 3 and alpha v integrins reduced binding to P1 fragment by 91% and to human laminin by 72%, demonstrating that the major integrin involved in rat osteoclast adhesion to proteolysed laminin is alpha v beta 3. Antiserum to beta 1 integrin inhibited adhesion to human laminin by 40%, but to P1 fragment by only 8%; this suggests that beta 1 integrins(s) contribute to osteoclast adhesion to human laminin but probably not to P1 fragment. The involvement of alpha v beta 3 integrin was confirmed using a recombinant human alpha v beta 3 solid phase binding assay, alpha v beta 3 bound to mouse P1 fragment and proteolytically digested human laminin, but not intact laminins.(ABSTRACT TRUNCATED AT 250 WORDS)

Blockade of osteoclast-mediated bone resorption through occupancy of the integrin receptor: a potential approach to the therapy of osteoporosis

Bone resorption requires the tight attachment of the bone-resorbing cells, the osteoclasts, to the bone mineralized matrix. Integrins, a class of cell surface adhesion glycoproteins, play a key role in the attachment process. Most integrins bind to their ligands via the arginyl-glycyl-aspartyl (R-G-D) tripeptide present within the ligand sequence. The interaction between integrins and ligands results in bidirectional transfer of signals across the plasma membrane. Tyrosine phosphorylation occurs within cells as a result of integrin binding to ligands and probably plays a role in the formation of the osteoclast clear zone, a specialized region of the osteoclast membrane maintained by cytoskeletal structure and involved in bone resorption. Human osteoclasts express alpha 2 beta 1 and alpha v beta 3 integrins on their surface. Such signaling may also lead to "inside-out" effects, like increased expression of integrin receptors on the cell surface, or increased affinity of the integrin to its ligand. The alpha v beta 3 integrin, a vitronectin receptor, plays an essential role in bone resorption. Antibodies to this integrin and short synthetic RGD-containing peptides are able to block bone resorption in vitro. Echistatin, an RGD-containing protein from a snake venom, binds to the alpha v beta 3 integrin and blocks bone resorption both in vitro and in vivo. Peptides containing the RGD motif are potential competitive "antagonists" of the osteoclast integrins and may have utility in the blockade of bone resorption. Agonists may be identified by stimulation of intracellular signaling.(ABSTRACT TRUNCATED AT 250 WORDS)

Localization of osteopontin in resorption lacunae formed by osteoclast-like cells: a study by a novel monoclonal antibody which recognizes rat osteopontin

The characteristics of a monoclonal antibody produced against osteoclast-like multinucleated cells (MNCs) formed in rat bone marrow cultures were examined immunohistochemically and biochemically. The in vitro immunization was performed using as immunogen the MNCs from rat bone marrow cell culture, which revealed many characteristics of osteoclasts. After screening and cloning of hybridomas, the monoclonal antibody HOK 1 was obtained. This antibody reacted weakly with stromal cells and intensely with both MNCs and their putative migratory traces on culture dishes. Immunofluorescent examination of paraffin sections revealed intense reactivity on the epithelium of the choroid plexus, the ileum and the proximal-convoluted tubules of the kidney, and also on bone cells such as osteocytes, osteoblasts, and osteoclasts. Western blotting using purified rat osteopontin verified that the antigen recognized by HOK 1 was osteopontin. Positive HOK 1 immunoreactivity was further observed in the resorption lacunae formed by a culture of MNCs on human tooth slices and on the surface of osteoclasts. The present data suggested that osteopontin is preferentially present on the resorption lacunae in resorbing calcified matrices and that osteoclasts under a specific state might trap this protein on their cell surface.

1 alpha,25-dihydroxyvitamin D3 stimulation of osteopontin expression in rat clonal dental pulp cells

Osteopontin (OPN) is a major phosphorylated non-collagenous protein isolated from bone. Rat clonal dental-pulp cell lines RPC-C2A and RDP4-1 produce and secrete OPN as a principal phosphoprotein. 1 alpha,25-dihydroxyvitamin D3 [1,25(OH)2D3] is a potent calcitropic hormone which regulates calcified tissue metabolism including the synthesis of extracellular matrix proteins. The effects of 1,25(OH)2D3 on the expression of OPN mRNA and the synthesis of OPN protein by pulp cells in vitro were investigated. In RPC-C2A cells, 1,25(OH)2D3 markedly stimulated synthesis of both [32PO4]- and [35S]-methionine-labelled OPN. Phosphorylated OPN synthesis increased dose-dependently and showed a maximum level at 48 h after addition of 10(-11)-10(-7) M 1,25(OH)2D3. Similar stimulation was also observed in RDP4-1 cells. Northern hybridization analysis revealed that 1,25(OH)2D3 greatly increased the level of OPN mRNA in both pulp cell lines. Examination of the time course of the effects of 1,25(OH)2D3 on the level of OPN mRNA in RPC-C2A cells by dot-blot analysis showed that stimulation was detectable at 24 h and reached a maximum at 48 h after exposure to 10(-7)M 1,25(OH)2D3. These findings indicate that 1,25(OH)2D3 stimulates the production of dental-pulp OPN by a mechanism that involves de novo synthesis and transcriptional control.

Immunolocalization of osteopontin, osteocalcin, and dentin sialoprotein during dental root formation and early cementogenesis in the rat

Using immunohistochemical methods we studied the tissue localization of the extracellular matrix proteins osteopontin (OPN), osteocalcin (OC), and dentin sialoprotein (DSP) during the formation of acellular and cellular cementum in newly born rats. In the layer of acellular cementum of developing incisor and molar teeth we found a very strong staining for OPN but not for DSP or OC. Many cells immediately adjacent to acellular cementum and PDL cells were also positive for OPN but not for DSP or for OC. In contrast, cellular cementum in molar teeth stained strongly for OPN and OC but not for DSP. Consistent with these observations, the cells engaged in the formation of cellular cementum (cementoblasts and cementocytes) reacted strongly for OPN and OC but not for DSP. In advanced stages of dentinogenesis, both crown and root odontoblasts and dentin stained for OPN, OC, and DSP. Cells and matrices of surrounding alveolar bone stained for OPN and OC but not for DSP. We conclude that cementoblasts and cementocytes of cellular cementum produce OPN and OC but not DSP and thus express an osteoblast-like, not an odontoblast-like, phenotype. The cells responsible for the production of acellular cementum are likely cells of the PDL in close contact with the dental root surface. These fibroblast-like cells express OPN but not OC or DSP and accordingly express only a partial osteoblastic phenotype.

Characterization of the chicken osteopontin-encoding gene

A genomic clone of the chicken osteopontin-encoding gene (opn) was isolated and found to be organized as follows: an untranslated 5' exon; a signal peptide; a recognition sequence for phosphorylation by casein kinase II; a domain containing a possible O-linkage site for glycosylation; a second casein kinase II phosphorylation site; an exon containing three functional regions, the poly-Asp sequence of seven consecutive Asp residues, the RGD integrin recognition site and a potential N-linkage site for glycosylation; and a large C-terminal exon which also contains a potential N-linkage site for glycosylation. Primer extension analysis demonstrated only one strong transcriptional start point (tsp) in mRNAs prepared from embryonic bone and cultured osteoblasts. Analysis of the 5' flanking region identified a TATA sequence at -31, an inverted CAAT motif at -57, an AP1-recognition sequence at -84 and a putative vitamin-D-response element (VDRE) sequence at -474. Three plasmid constructs containing 963, 561 and 368 bp of 5' flanking sequence of the avian promoter were used to drive expression of bacterial cat. Comparison of the relative promoter activities of these constructs was carried out in MC3T3/E1 cells, a murine osteoblast cell line. All of the constructs showed approximately 20-fold the levels of expression over background activity of the cat gene without a promoter. Each construct also demonstrated a strong induction with phorbol-12-myristyl-13-acetate (PMA). In contrast, dihydroxycholecalciferol [1,25(OH)2D3] had neither a positive nor a negative effect on the 368- and 936-bp constructs, but was stimulatory for the 561-bp construct.(ABSTRACT TRUNCATED AT 250 WORDS)

Cloning and sequence analysis of bovine bone sialoprotein cDNA: conservation of acidic domains, tyrosine sulfation consensus repeats, and RGD cell attachment domain

We isolated and sequenced a cDNA encoding bovine bone sialoprotein (BSP) using a bovine cDNA library made from mRNA isolated from bone-derived cell cultures and ligated to a phage lambda gt11. One of the cDNA clones isolated from this library had a 1800 base pair long insert and was found to contain the entire protein-encoding region. The deduced protein sequence revealed a 310 amino acid protein containing a signal peptide sequence of 16 hydrophobic amino acids. The protein sequence shows remarkable conservation with previously published human and rat sequences (more than 80% similarity for both species). The potential functional domains of BSP, including three acid amino acid-rich sequences, tyrosine sulfation consensus repeats, and the RGD cell binding sequence, are all present in the bovine sequence. Northern analysis of RNA from different bovine tissues indicated the presence of BSP message in bone but not in other nonmineralized tissues, confirming that bone is the major site of BSP message production.

Osteopontin promotes vascular cell adhesion and spreading and is chemotactic for smooth muscle cells in vitro

Osteopontin is an Arg-Gly-Asp-containing acidic phosphoprotein recently shown to be upregulated in vascular smooth muscle during rat arterial neointima formation and in human atherosclerotic plaques. Functional studies showed that osteopontin promoted adhesion of both cultured aortic endothelial cells and aortic smooth muscle cells. Adhesion of vascular cells to osteopontin was dose dependent and half maximal when solutions containing 7 and 30 nmol/L osteopontin were used to coat wells for endothelial and smooth muscle cells, respectively. Smooth muscle cells adherent to osteopontin were spread after 60 minutes, whereas endothelial cells remained round, although flattened, at this time point but were spread at 90 minutes. Cell spreading on osteopontin was accompanied by the formation of focal adhesion plaques. A newly developed anti-osteopontin antibody completely inhibited adhesion of both cell types to osteopontin but not to fibronectin or vitronectin. In addition, the peptide GRGDSP blocked adhesion to osteopontin, suggesting that integrins mediate Arg-Gly-Asp-dependent adhesion. Indeed, an antibody against the alpha v beta 3 integrin neutralized adhesion of both endothelium and smooth muscle cells to osteopontin by approximately 50%, demonstrating that alpha v beta 3 is one osteopontin receptor on vascular cells. Osteopontin also promoted the migration of smooth muscle cells in a Boyden-type chamber, with half-maximal effects observed at 77 nmol/L osteopontin. Checkerboard analysis demonstrated that this stimulus was chemotactic in nature. Our findings suggest that osteopontin may be functionally important as an adhesive and chemotactic molecule for vascular cells, particularly when levels of osteopontin are dramatically increased, as is the case after arterial angioplasty and in atherosclerotic plaques.