Multiple forms of SppI (secreted phosphoprotein, osteopontin) synthesized by normal and transformed rat bone cell populations: regulation by TGF-beta

Metabolic labeling has revealed that rat bone cell populations in culture synthesize several forms of the secreted phosphoprotein, SppI. Most cell populations produced two major [32PO4]-labeled forms that behaved anomolously on SDS-PAGE migrating at 60 kDa and 56 kDa on 10% gels and 55 kDa and 44 kDa on 15% gels. Minor forms of intermediate sizes were also resolved. In normal bone cells the 60 kDa form was predominant and was the only form produced by the clonal bone cell line, RCA 11, whereas the 56 kDa a form predominated in the transformed bone cell line, ROS 17/2.8. In all populations [35S]-methionine-labeling revealed SppIs at approximately 60 kDa but no 56 kDa form. Each form of SppI was specifically cleaved by thrombin which generated fragments of approximately 28 kDa. Transforming growth factor beta 1 increased SppI mRNA levels 3 to 6-fold within 24 h in the normal bone cells, but no increase occurred in the ROS 17/2.8 cells. The elevated expression of SppI was reflected in a selective increase in the synthesis of the [32PO4]-and [35S]-methionine-labeled 60 kDa SppIs.     

Bone formation in vitro by stromal cells obtained from bone marrow of young adult rats

Summary Cells from fetal or neonatal skeleton can synthesize bone-like tissue in vitro. In contrast, formation of bone-like tissue in vitro by cells derived from adult animals has rarely been reported and has not been achieved using cells from bone marrow. We have explored development of bone-like tissue in vitro by bone marrow stromal cells. Marrow stromal cells obtained from 40–43-day-old Wistar rats were grown in primary culture for 7 days and then subcultured for 20–30 days. Cells were cultured in either -minimal essential medium containing 15% fetal bovine serum, antibiotics, and 50 g/ml ascorbic acid, or the above medium supplemented with either 10 mM Na--glycerophosphate, 10^-8 M dexamethasone, or a combination of both. Cultures were examined using phase-contrast microscopy, undemineralized and demineralized tissue histology, histochemistry (for alkaline phosphatase activity), immunohistochemistry (for collagen type, osteonectin, and bone Glaprotein), scanning and transmission electron microscopy, energy dispersive X-ray microanalysis, and X-ray diffraction. Collagenous, mineralized nodules exhibiting morphological and ultrastructural characteristics similar to bone were formed in the cultures, but only in the presence of both -glycerophosphate and dexamethasone. Cells associated with the nodules exhibited alkaline phosphatase activity. The matrix of the nodules was composed predominantly of type-I collagen and both osteonectin and Glaprotein were present. X-ray microanalysis showed the presence of Ca and P, and X-ray diffraction indicated the mineral to be hydroxyapatite. The nodules were also examined for bone morphogenetic protein-like activity. Paired diffusion chambers containing partly demineralized nodules and fetal muscle were implanted intraperitonealy in rats. Induction of cartilage in relation to muscle was observed histologically after 40 days in the chambers. This finding provided further support for the bone-like nature of the nodules. The observations show that bone-like tissue can be synthesized in vitro by cells cultured from young-adult bone marrow, provided that the medium contains both -glycerophosphate and, particularly, dexamethasone.     

Differential effects of transforming growth factor-beta on the synthesis of extracellular matrix proteins by normal fetal rat calvarial bone cell populations

To determine the effects of transforming growth factor-beta (TGF-beta) on the different cell types that exist in bone, cell populations (I-IV), progressively enriched in osteoblastic cells relative to fibroblastic cells, were prepared from fetal rat calvaria using timed collagenase digestions. TGF-beta did not induce anchorage-independent growth of these cells, nor was anchorage-dependent growth stimulated in most populations studied, despite a two- to threefold increase in the synthesis of cellular proteins. In all populations the synthesis of secreted proteins increased 2-3.5-fold. In particular, collagen, fibronectin, and plasminogen activator inhibitor synthesis was stimulated. However, different degrees of stimulation of individual proteins were observed both within and between cell populations. A marked preferential stimulation of plasminogen activator inhibitor was observed in each population, together with a slight preferential stimulation of collagen; the effect on collagen expression being directed primarily at type I collagen. In contrast, the synthesis of SPARC (secreted protein acidic rich in cysteine/osteonectin was stimulated approximately two-fold by TGF-beta, but only in fibroblastic populations. Collectively, these results demonstrate that TGF-beta stimulates matrix production by bone cells and, through differential effects on individual matrix components, may also influence the nature of the matrix formed by different bone cell populations. In the presence of TGF-beta, osteoblastic cells lost their polygonal morphology and alkaline phosphatase activity was decreased, reflecting a suppression of osteoblastic features. The differential effects of TGF-beta on bone cell populations are likely to be important in bone remodeling and fracture repair.     

Culture of soybean fruit explants: growth conditions and efficiency of nitrogen sources for reserve protein synthesis

A system was devised for the in vitro culture of soybean fruits. The culture system consisted of a single fruit attached to a short piece of stem through which the nutrients were supplied. The fruit explants were taken when pods were fully expanded and the seeds at initial stages of growth. During a 7-day culture period, the seeds accumulated dry matter and protein in quantities comparable to those in situ. Omission of the C source (sucrose) from the medium resulted in no dry matter accumulation in the seeds, but omission of the N source (glutamine) still led to some protein accumulation, indicating mobilization of N from other parts of the fruit explant. Optimum protein accumulation occurred when glutamine was supplied at 1.2 mg N ml^-1. Protein accumulation in the seeds was highly dependent on the nature of the N source. Glutamine, asparagine and the ureide, allantoin, were equally the most efficient sources, whereas several other amino acids tested showed lower degrees of efficiency. The data indicate a high metabolic capacity of the fruit tissues for principal N transport compounds of soybean, namely allantoin, asparagine and glutamine. The culture system described should prove useful for developmental and metabolic studies where the complex influence of the rest of the plant is to be avoided.Abbreviations ALN allantoin - ALC allantoic acid Preliminary report presented at the IV World Soybean Research Conference, Buenos Aires, Arggentina, March 1989.     

Mineral-binding proteoglycans of fetal porcine calvarial bone

To provide a more definitive characterization of the hydroxylapatite-associated proteoglycans (HAPG) of bone, proteins were extracted from the mineralized matrix of fetal porcine calvaria with 0.5 M EDTA in the absence of guanidine HCl. The small proteoglycans obtained in the extract were fractionated by gel filtration on Sepharose CL-6B, purified by ion-exchange chromatography on Polyanion matrix (fast protein liquid chromatography), and then separated into three major populations of chondroitin sulfate proteoglycans by chromatography on hydroxylapatite, all in the presence of 7 M urea. Based on immunological and chemical properties, two classes of bone proteoglycan were resolved. In one class (HAPG1), the proteoglycan and specific CNBr-derived peptides cross-reacted with three monoclonal antibodies that recognize different epitopes of the protein core of bovine skin proteodermatan sulfate. The other class of proteoglycan included two species (HAPG2, HAPG3) which were not recognized by these antibodies. In addition, these proteoglycans did not stain with Coomassie Blue R-250 nor with silver stain nor did they bind to nitrocellulose membranes used in Western blots. However, the cationic dye Stains-all stained both HAPG2 and HAPG3; the protein cores of these proteoglycans were stained a characteristic turquoise blue, whereas the protein core of HAPG1 was stained pink. The average Mr values of the bone proteoglycans, from gradient sodium dodecyl sulfate-polyacrylamide gel electrophoresis were: HAPG1, 120,000, with a protein core (chondroitinase AC-digested) of 45,000; HAPG2 and HAPG3, 110,000, with protein cores of 37,000-38,000. On 15% polyacrylamide gel electrophoresis, the protein cores of HAPG2 and HAPG3 migrated with an Mr 30,000, while HAPG1 protein core was unchanged (Mr 45,000). Based on amino acid analysis, the protein chains of HAPG2 and HAPG3 appear to be identical, although minor differences in the relative amount of glucosamine were evident. In contrast, the composition of HAPG1 was quite different, with higher relative amounts of hydrophobic and aromatic residues and lower amounts of Asx and Glx. The presence of 360 residues/1,000 of Asx and Glx in HAPG2 and HAPG3 may in part explain the characteristic staining and immunotransfer properties of these proteoglycans. The unique amino-terminal sequence of HAPG2 (Asn-Pro-Val-Ala-Arg-Tyr-Gln), together with the immunological and chemical properties, would indicate that HAPG2 and HAPG3 are novel proteoglycans and, unlike HAPG1, could be unique to mineralized tissues.     

Specific immunohistochemical localization of osteonectin and collagen types I and III in fetal and adult porcine dental tissues

Affinity-purified antibodies have been used in combination with the peroxidase-antiperoxidase technique to study the distribution of osteonectin and collagen types I and III in porcine dental tissues. Tissue sections (2 mm thick), including unerupted (fetal) or erupted (adult) teeth, were fixed in periodate-lysine-paraformaldehyde, demineralized in 12% w/v ethylenediaminetetraacetic acid, and after embedding, 6 micron sections were prepared for immunolocalization. Strong staining for osteonectin was observed in dentine of unerupted teeth and in the associated alveolar bone. Light to moderate staining was observed in the dental pulp, stratum intermedium, stellate reticulum, and the reticular elements in the endosteal spaces. In erupted teeth, osteonectin staining in dentine was concentrated around dentinal tubules and the associated alveolar bone stained with variable intensity. Cementum was poorly stained. However, the periodontal ligament and reticular material in the endosteal spaces showed moderate to strong staining. Weaker staining was apparent in the pulp and lamina propria of the gingiva. In comparison, type I collagen showed a similar distribution to osteonectin in both fetal and adult tissues, whereas type III collagen was generally restricted to the periodontal ligament, reticular elements of the endosteal spaces, and Sharpey's fibers in bone and cementum. Both odontoblast and ameloblast layers in fetal tissues stained for osteonectin and type III collagen.     

Fibronectin-independent attachment of human gingival fibroblasts to interstitial and basement membrane collagens

We have studied the ability of human gingival fibroblasts (HGF) to attach to different interstitial (types I, II and III) and basement membrane (types IV and V) collagens. HGF cells were plated onto collagen-coated Petri dishes under various conditions and the percentage of cells attaching to the collagen was determined. HGF were found to attach to all the different types of native collagens, but attached poorly to the corresponding denatured collagens. When plated in the presence of 15% fetal bovine serum (FBS) or fibronectin-depleted FBS, similar percentages (approximately 85%) of cells attached to both interstitial and basement membrane collagens, demonstrating an attachment mechanism that is independent of plasma fibronectin. That the attachment in the presence of serum was also independent of cellular fibronectin was shown by the inability of fibronectin antibodies to block attachment to any of the collagen types. HGF were also capable of attaching to all of the collagen types in the complete absence of serum. In previous studies, investigators using cell lines have suggested that cell attachment in the absence of serum is non-physiological. However, the serum-free attachment of HGF to collagen was found to be dependent on cellular protein synthesis indicating that this attachment mechanism has biological significance.     

Bone sialoprotein mRNA expression and ultrastructural localization in fetal porcine calvarial bone: comparisons with osteopontin

Summary Bone sialoprotein (BSP) and osteopontin (OPN) are two major non-collagenous proteins in bone that have similar biochemical properties and can mediate cell attachment through an RGD (Arg-Gly-Asp) motif that recognizes the vitronectin receptor. To facilitate evaluations of the biological functions of BSP and OPN in bone formation, affinity-purified rabbit polyclonal antibodies against porcine BSP and OPN were used, together with a high-resolution protein A-gold immunocytochemical technique to reveal the ultrastructural localization of these proteins in undermineralized sections of 50-day fetal porcine calvarial bone. In addition,³⁵S-labelled antisense riboprobes were prepared to demonstrate the cellular expression of BSP and OPN in the same tissues usingin situ hybridization. Immunolocalization for both BSP and OPN revealed the highest density of gold particles associated with electron-dense organic material found at the mineralization front and in ‘cement lines’. Labelling was also observed in the mineralized matrix over electron-dense material between collagen fibrils. In the osteoid of newly-formed bone, immunogold labelling for BSP and OPN was associated with loci of mineralization, which were often characterized by feathery clusters of fine needle-like crystals. Results ofin situ hybridization on the same tissues demonstrated that BSP mRNA expression was restricted to differentiated osteoblasts with particularly strong signals evident at sites ofde novo bone formation. More moderate expression of BSP was observed in ‘older’ osteoblasts and in some of the newly-entrapped osteocytes. Although expression of OPN mRNA was also observed in osteoblasts and osteocytes, the level of hybridization was similar for most bone cells and not markedly stronger than the signal observed in some stromal cells. While it is evident from these and other studies that both BSP and OPN are associated with bone formation, the differences observed in cellular expression indicate distinct roles for these proteins in bone formation.