The biocompatibility and osteoconductive activity of a novel hydroxyapatite/collagen composite biomaterial, and its function as a carrier of rhBMP-2.

A hydroxyapatite/type I collagen (HAp/Col) composite, in which the hydroxyapatite nanocrystals align along the collagen molecules, has been prepared. The biocompatibility, osteoconductive activity, and efficacy as a carrier of recombinant human bone morphogenetic proteins (rhBMPs) of this novel biomaterial were examined. The composite material was implanted in the backs of Wistar rats, and specimens were collected for histological observations until week 24. In a second experiment, other samples of the composite material (5 x 5 x 10 mm3) were drilled and immersed in a solution of rhBMP-2 (0, 200, 400 microg/mL), and subsequently grafted in radii and ulnae in beagle dogs. As a control, three unfilled holes were left in one radius and ulna. X-ray images were prepared, and specimens collected for histological observation at weeks 8 and 12. Histological findings of the composites grafted in rats showed that the surface of the material was eroded as a result of macrophage infiltration. X-ray images and histological findings for the composites implanted in dogs support the idea that HAp/ Col has a high osteoconductive activity and is able to induce bone-remodeling units. In cases where the implants are grafted at weight bearing sites, treatment with rhBMP-2 at a dose of 400 microg/mL may be useful to shorten the time needed until bone union has occurred.

Induction of apoptosis of monocyte-macrophage lineage cells by 5-S-GAD.

We found that 5-S-GAD, an insect-derived antibacterial peptide, inhibited murine osteoclast formation in vitro. We examined the specific time point of the inhibitory action of 5-S-GAD on osteoclast formation and found that it mainly suppressed differentiation of osteoclasts in the middle of the culture period. Using HL60 cells that are able to differentiate into multinucleated macrophage-like cells, we found that 5-S-GAD induced apoptosis of HL60 cells by producing H(2)O(2). Thus, the inhibition of osteoclast formation by 5-S-GAD could be, in part, due to apoptosis of the cells of an osteoclast lineage.

Mice lacking osteopontin show normal development and bone structure but display altered osteoclast formation in vitro.

We have used homologous recombination in embryonic stem cells to generate mice with a targeted disruption of the osteopontin (Opn, or Spp1, for secreted phosphoprotein 1) gene. Mice homozygous for this disruption fail to express osteopontin (OPN) as assessed at both the mRNA and protein level, although an N-terminal fragment of OPN is detectable at extremely low levels in the bones of -/- animals. The Opn -/- mice are fertile, their litter size is normal, and they develop normally. The bones and teeth of animals not expressing OPN are morphologically normal at the level of light and electron microscopy, and the skeletal structure of young animals is normal as assessed by radiography. Ultrastructurally, proteinaceous structures normally rich in OPN, such as cement lines, persist in the bones of the Opn-/- animals. Osteoclastogenesis was assessed in vitro in cocultures with a feeder layer of calvarial osteoblast cells from wild-type mice. Spleen cells from Opn-/- mice cells formed osteoclasts 3- to 13-fold more frequently than did control Opn+/+ cells, while the extent of osteoclast development from Opn -/- bone marrow cells was about 2- to 4-fold more than from the corresponding wild-type cells. Osteoclast development occurred when Opn-/- spleen cells were differentiated in the presence of Opn-/-osteoblasts, indicating that endogenous OPN is not required for this process. These results suggest that OPN is not essential for normal mouse development and osteogenesis, but can modulate osteoclast differentiation.

Effects of ovariectomy on intestinal alkaline phosphatase expression in rats.

The aim of this study was to investigate the effects of ovariectomy (OVX) on intestinal alkaline phosphatase (ALP) activity in rats. The calcium (Ca) and phosphorus (P) contents and the mechanical strength of bone were decreased significantly by OVX. Two kinds of mRNAs of rat intestinal ALP (RTIN-1 and RTIN-2) were detected by reverse transcription-polymerase chain reaction (RT-PCR). In OVX rats, the level of RTIN-2 mRNA was lowered significantly, while that of RTIN-1 mRNA did not change. This result was compatible with the results of enzymatic activity. This finding suggests the possibility that OVX affects bone metabolism not only directly but also in an indirect way through an intestinal Ca and/or P metabolism via regulation of intestinal RTIN-2 ALP expression.

Expression of mRNA encoding intestinal type alkaline phosphatase in rat liver and its increase by fat-feeding.

The presence of types of alkaline phosphatase (ALP) other than the tissue non-specific type enzyme in rat liver and its increase by fat feeding are known. In order to examine expression of intestinal type ALP in liver, specific oligonucleotide primers corresponding to two types of mRNAs of rat intestinal ALP (RTIN-1 and -2) were designed and amplified by means of the reverse transcriptase-polymerase chain reaction (RT-PCR). It was found that RTIN-1 mRNA was expressed only in the intestine but not in the liver, while RTIN-2 mRNA was expressed both in the intestine and in the liver. By fat feeding, expression of RTIN-1 mRNA increased in the intestine and that of RTIN-2 mRNA increased both in the intestine and in the liver. Thus, it was concluded that rat liver expressed one of the intestinal type ALP (RTIN-2) which was enhanced by fat feeding.

Establishment and characterization of bone marrow stromal cell lines that support osteoclastogenesis.

We established bone marrow stromal cell lines that support tartrate-resistant acid phosphatase-positive multinucleated cell [TRAcP(+)MNC] formation by using transgenic mice harboring simian virus 40 large T antigen gene. The morphology of these TM cell lines (large T-immortalized marrow cells) was spindle-like at sparse cell density, whereas it became smaller and cuboidal at confluence. The TM cell lines showed diverse ranges of activity in supporting TRAcP(+)MNC formation when they were examined in the cocultures with spleen cells in the presence of 1 alpha,25-dihydroxyvitamin D3. Among these cell lines, TM8 supported the TRAcP(+)MNC formation most efficiently (from 400-1500 cells/well) when cocultured with spleen cells. Another bone marrow-derived cell line, TM5, supported TRAcP(+)MNC formation in the coculture assay, whereas the efficiency was approximately one fifth that of TM8. Interestingly, TM8 cells also supported TRAcP(+)MNC formation even in the cocultures at low serum concentration (0.5% fetal bovine serum) with an efficiency yielding over 200 TRAcP(+)MNCs/well. TM8 cells expressed certain levels of macrophage colony-stimulating factor and stem cell factor messenger RNAs (mRNAs), but low levels of c-fms mRNA. Expression of c-kit mRNA in TM5 and TM8 cells was undetectable. 1 alpha,25-Dihydroxyvitamin D3 treatment enhanced the expression of osteopontin mRNA more than 10-fold in these cells, indicating the presence of the receptor for this steroid. These TRAcP(+)MNCs, which developed in the cocultures of the TM8 and spleen cells, formed pits when cultured on bone slices, indicating that they were capable of resorbing bone. The various levels of expression of these genes and the difference in the supporting activities for the TRAcP(+)MNC development in the diverse TM cell lines suggest the heterogeneity in the marrow cell populations in vivo regarding their activity in supporting osteoclastogenesis.