Human growth hormone stimulates proteinase activities of rabbit bone cells via IGF-I

Human growth hormone (hGH) and human insulin-like growth factor-I (hIGF-I) are known to have a marked influence on osteoclastic formation and bone resorption in an unfractionated rabbit bone cell model. This study investigated the effects of both of these factors on the induction of cysteine-proteinases and matrix metalloproteinase-2 (MMP-2) and MMP-9. After 4 days of rabbit bone cell culture, hGH and hIGF-I significantly modulated cathepsin, MMP-9 (latent form) and MMP-2 (active form) activities. Similar studies were performed in the presence of parathyroid hormone (hPTH). hPTH increased MMP-2 and MMP-9 activities whereas it had no effect on the production of cathepsins by bone cells. When neutralizing anti-hIGF-1 antiserum was added to the culture, the stimulatory effects of hGH were totally abolished, indicating that hGH-modulated cathepsin and metalloproteinase activities were partly mediated by local hIGF-I secretion. Cysteine-proteinase activities released by purified osteoclasts were very low and were not modulated by hGH and h-IGF-I. However, hIGF-I but not hGH increased MMP-2 and MMP-9 activities released by purified osteoclasts. It may be concluded that hGH markedly stimulates the expression of proteinases in total rabbit bone cells via local hIGF-I production by stromal cells. Cysteine-proteinase activities are mainly produced by non-osteoclastic cells, while MMP-2 and MMP-9 modulated by hIGF-I are mainly expressed by osteoclastic cells.     

Inhibitory effects of egg yolk soluble protein on bone resorption

We determined the effects of yolk water-soluble protein (YSP) on bone resorption. YSP potently suppressed osteoclastogenesis from bone marrow-derived precursor cells driven by tumor necrosis factor-alpha (TNF-alpha). YSP (200 microg/ml) abolished the formation of tartarate-resistant acid phosphatase (TRAP)-positive osteoclasts. Furthermore, TNF-alpha induced TRAP activity was greatly inhibited by YSP (100 microg/ml) treatment. Our results suggest that YSP has therapeutic potential for bone-erosive diseases.     

Fetal bovine bone cells synthesize bone-specific matrix proteins

We isolated cells from both calvaria and the outer cortices of long bones from 3- to 5-mo bovine fetuses. The cells were identified as functional osteoblasts by indirect immunofluorescence using antibodies against three bone-specific, noncollagenous matrix proteins (osteonectin, the bone proteoglycan, and the bone sialoprotein) and against type 1 collagen. In separate experiments, confluent cultures of the cells were radiolabeled and shown to synthesize and secrete osteonectin, the bone proteoglycan and the bone sialoprotein by immunoprecipitation and fluorography of SDS polyacrylamide gels. Analysis of the radiolabeled collagens synthesized by the cultures showed that they produced predominantly (approximately 94%) type I collagen, with small amounts of types III and V collagens. In agreement with previous investigators who have employed the rodent bone cell system, we confirmed in bovine bone cells that (a) there was a typical cyclic AMP response to parathyroid hormone, (b) freshly isolated cells possessed high levels of alkaline phosphatase, which diminished during culture but returned to normal levels in mineralizing cultures, and (c) cells grown in the presence of ascorbic acid and beta-glycerophosphate rapidly produced and mineralized an extracellular matrix containing largely type I collagen. These results show that antibodies directed against bone-specific, noncollagenous proteins can be used to clearly identify bone cells in vitro.     

Collagenase and proteinase induction in implants of bone matrix

Enzymes capable of digesting collagen and non-collagenous proteins are present in implants of bone matrix. In the early stages of bone morphogenesis, implants produce relatively large amounts of trypsin-labile proteins and have high non-collagenolytic neutral proteinase and low collagenase activities. Enzymatic activity is maximal three weeks after implantation. The results indicate that increased synthesis of non-collagenous proteins and non-collagenolytic proteinases precedes the induction of significant amounts of collagenases. The importance of these findings in bone morphogenesis is discussed.     

Effects of geraniin on osteoclastic bone resorption and matrix metalloproteinase-9 expression

In our previous studies, geraniin was reported to have a preventive effect in the rat model of tretinoin-induced osteoporosis. However, whether geraniin exhibits an inhibitory effect on bone resorption or on MMP-9 expression is not yet known. We present here our novel findings from in vitro experiments that geraniin (a) decreases the number of mature osteoclasts and pre-osteoclast in cultures, (b) reduces the osteoclastic fusion index, and (c) inhibits the resorption areas and resorption pits. We also report that geraniin suppresses the mRNA and protein expression levels of MMP-9. These results demonstrate that geraniin has an inhibitory effect on the bone-absorption ability of osteoclasts in vitro, and the mechanisms may be closely associated with the downregulation of mRNA and protein expression of MMP-9.     

Tumor necrosis factors alpha and beta induce osteoblastic cells to stimulate osteoclastic bone resorption

Antigen- or mitogen-stimulated leukocytes release bone-resorbing activity into culture supernatants in vitro. Among the agents likely to be present in such supernatants are monocyte-derived tumor necrosis factor (TNF-alpha) and lymphocyte-derived tumor necrosis factor (TNF-beta) (lymphotoxin), both of which have recently been shown to stimulate bone resorption in organ culture. To identify the mechanism of action of these agents, we compared bone resorption by isolated osteoclasts with bone resorption by osteoclasts cocultured with osteoblastic cells, and with bone resorption by osteoclasts incubated with supernatants from osteoblastic cells, in the presence and absence of recombinant TNF-alpha and TNF-beta. We found that neither TNF-alpha nor TNF-beta had any significant effect on bone resorption by isolated osteoclasts, but in the presence of osteoblasts the agents caused a twofold to threefold stimulation of bone resorption. A similar degree of stimulation was achieved by supernatants from osteoblasts incubated with TNF before addition to osteoclasts, compared with supernatants to which TNF were added after osteoblast incubation. These experiments suggest that TNF-alpha and TNF-beta stimulate bone resorption through a primary effect on osteoblastic cells, which are induced by TNF to produce a factor that stimulates osteoclastic resorption. Half-maximal stimulation of resorption occurred at 1.5 X 10(-10) M and 2.5 X 10(-10) M for TNF-alpha and TNF-beta, respectively. This degree of potency is comparable to that of parathyroid hormone, the major physiologic systemic regulator of bone resorption, and suggests that the TNF may exert a significant influence on osteoclastic bone resorption in vivo.     

Further characterization of murine bone marrow-derived natural suppressor cells. Potential relationships between NS and NK/LAK activities

Murine bone marrow (BM) cells regulate a variety of immune responses via an endogenous natural suppressor (NS) activity. We demonstrate that BM-derived NS activity resides in an enriched fraction of large, low-density cells which have a high proliferative rate. Complement-dependent lysis of BM cells by antibody directed against markers of Veto and NK/LAK cells had no effect on NS activity. The BM of SCID mice and their littermate C.B-17 possessed normal NS activity. Conversely, the BM of NK-deficient C57 beige mice displayed reduced NS activity as compared to normal C57 black mice. Long-term BM cultures (LTBMC) generated in medium containing supernatants of Con A-stimulated (CAS) rat spleen cells resulted in the emergence of a population of cells which possessed NS activity greater than that of fresh BM cells. The LTBMC were also potent effectors of NK activity, as compared to fresh BM, which had little NK activity. Thus, while NS, NK/LAK, and Veto cells are all nonspecific effectors of immune suppression, the exact relationship between them is not clear.     

Structural studies on membrane-bound and soluble growth-hormone-binding proteins of rabbit liver.

Covalent cross-linking techniques have been used to investigate the structural characteristics of the growth-hormone (GH) receptor in a variety of rabbit liver cell membrane preparations (particulate and soluble). Two classes of GH-binding protein have been identified which differ in their Mr by gel filtration and susceptibility to precipitation with poly(ethylene glycol) (PEG). The first, a PEG-precipitable (Mr approximately 300,000) protein, contained Mr-65,000 and Mr-40,000 binding proteins linked by disulphide bonds. It was present in aqueous extracts derived from microsomal membranes but was not present in cytosol preparations. The second, a PEG-non-precipitable protein (Mr approximately 100,000) was composed of a non-disulphide-linked primary GH-binding subunit of Mr 60,000-66,000. This binding protein was present in all rabbit liver cell fractions and/or preparations. Both binding-protein classes contained intramolecular disulphide bonds. It is not clear whether the Mr-approximately 100,000 form, or perhaps higher-Mr species which have not been identified by cross-linking studies, represents the native, endogenous, form of the GH receptor present in particulate microsomal or plasma membranes. Accordingly, although these data have identified two classes of GH-binding protein, especially a primary GH-binding subunit of Mr 60,000-66,000, they indicate that, unlike studies on the insulin receptor, covalent cross-linking techniques alone are not sufficient to delineate the complete subunit structure of the native and endogenous form of the GH receptor.     

Decay of proteinase and peptidase activities of human and rabbit erythrocytes during cellular aging

Variations in activity of the membrane-bound and cytosolic proteinases and peptidases were analyzed in human and rabbit erythrocytes at various stages of their life-span. The patterns observed with human erythrocytes were the following. (a) The acidic endopeptidase activity associated with the membranes undergoes a substantial decline during cellular aging, with an estimated half-life of 65 days. Concomitantly it appears to become progressively more latent. (b) All cytosolic proteinase and peptidase activities described previously (Pontremoli, S., Melloni, E., Salamino, F., Sparatore, B., Michetti, M., Benatti, U., Morelli, A. and De Flora, A. (1980) Eur. J. Biochem. 110, 421–430) decline exponentially throughout the erythrocyte life-span, with the exception of dipeptidyl aminopeptidase III. The calculated half-lives were: 60 days for the neutral endopeptidase; 87 days for the total acidic endopeptidase activity which is accounted for by three distinct enzymes; 49 days for aminopeptidase B and 133 days for a second aminopeptidase with broad substrate specificity; 84 days for dipeptidyl aminopeptidase II. The results obtained with the rabbit erythrocytes were: (a) no significant decline of leucine aminopeptidase, dipeptidyl aminopeptidase II and III activities in the transition from reticulocytes to mature erythrocytes; (b) very limited decline of aminopeptidase B activity; (c) a pronounced age-dependent decay, in increasing order, of neutral endopeptidase, aminopeptidase A, carboxypeptidase and acidic endopeptidase activities.     

Autophagy proteins regulate the secretory component of osteoclastic bone resorption

Osteoclasts resorb bone via the ruffled border, whose complex folds are generated by secretory lysosome fusion with bone-apposed plasma membrane. Lysosomal fusion with the plasmalemma results in acidification of the resorptive microenvironment and release of CatK to digest the organic matrix of bone. The means by which secretory lysosomes are directed to fuse with the ruffled border are enigmatic. We show that proteins essential for autophagy, including Atg5, Atg7, Atg4B, and LC3, are important for generating the osteoclast ruffled border, the secretory function of osteoclasts, and bone resorption in?vitro and in?vivo. Further, Rab7, which is required for osteoclast function, localizes to the ruffled border in an Atg5-dependent manner. Thus, autophagy proteins participate in polarized secretion of lysosomal contents into the extracellular space by directing lysosomes to fuse with the plasma membrane. These findings are in keeping with a putative link between autophagy genes and human skeletal homeostasis.     

Neutral calcium dependent proteinase from rabbit skeletal muscle: activity on myofibrillar proteins

Experiments have been carried out to explore the proteolytic cleavage of rabbit skeletal myofibrils by a calcium dependent neutral proteinase (CaANP). Polyacrylamide gel elctrophoresis on great slabs showed the ability of CaANP to degrade myofibrils more readily than supposed. Besides the hydrolysis of troponin T and the apparition of degradation product of 30,000 molecular weight, the activity of this enzyme is obvious too on some components of the M-line and on heavy subunits of tropomyosin as well as on three unidentified proteic fractions. The variety of the degradation products which appear suggest that the specificity of CaANP is not as selective as presumed. The participation of this proteinase in the postmorten evolution of muscle and its intervention in the turnover of myofibrillar proteins is discussed.     

Functional heterogeneity of osteoclasts: matrix metalloproteinases participate in osteoclastic resorption of calvarial bone but not in resorption of long bone.

Data in the literature suggest that site-specific differences exist in the skeleton with respect to digestion of bone by osteoclasts. Therefore, we investigated whether bone resorption by calvarial osteoclasts (intramembranous bone) differs from resorption by long bone osteoclasts (endochondral bone). The involvement of two major classes of proteolytic enzymes, the cysteine proteinases (CPs) and matrix metalloproteinases (MMPs), was studied by analyzing the effects of selective low molecular weight inhibitors of these enzymes on bone resorption. Mouse tissue explants (calvariae and long bones) as well as rabbit osteoclasts, which had been isolated from both skeletal sites and subsequently seeded on bone slices, were cultured in the presence of inhibitors and resorption was analyzed. The activity of the CP cathepsins B and K and of MMPs was determined biochemically (CPs and MMPs) and enzyme histochemically (CPs) in explants and isolated osteoclasts. We show that osteoclastic resorption of calvarial bone depends on activity of both CPs and MMPs, whereas long bone resorption depends on CPs, but not on the activity of MMPs. Furthermore, significantly higher levels of cathepsin B and cathepsin K activities were expressed by long bone osteoclasts than by calvarial osteoclasts. Resorption of slices of bovine skull or cortical bone by osteoclasts isolated from long bones was not affected by MMP inhibitors, whereas resorption by calvarial osteoclasts was inhibited. Inhibition of CP activity affected the resorption by the two populations of osteoclasts in a similar way. We conclude that this is the first report to show that significant differences exist between osteoclasts of calvariae and long bones with respect to their bone resorbing activities. Resorption by calvarial osteoclasts depends on the activity of CPs and MMPs, whereas resorption by long bone osteoclasts depends primarily on the activity of CPs. We hypothesize that functionally different subpopulations of osteoclasts, such as those described here, originate from different sets of progenitors.     

Regulation of DNA synthesis and antibody production by soluble factors released by bone marrow cells

Bone marrow cells (BMC) suppressed the antibody response of spleen cells across a cell impermeable membrane. Fractionation of BMC supernatants by column chromatography and ultrafiltration revealed the presence of a suppressor factor and an enhancing factor which acted antagonistically. Bone marrow enhancing factor (B-EF) had a molecular weight greater than 20,000, enhanced antibody synthesis, and stimulated DNA synthesis in thymocytes but not BMC. Bone marrow suppressor factor (B-SF) was produced by non-adherent BMC, had a molecular weight 1000 to 10,000, suppressed the antibody response in vivo and in vitro, and stimulated DNA synthesis in BMC but not thymocytes. The possible role of these factors in homeostasis and regulation is discussed.     

Expression of the proteinase specialized in bone resorption, cathepsin K, in granulomatous inflammation

BACKGROUND: The cysteine proteinase cathepsin K has aroused intense interest as the main effector in the digestion of extracellular matrix during bone resorption by osteoclasts. The enzyme is not a housekeeping lysosomal hydrolase, but is instead expressed with striking specificity in osteoclasts. In this work, we present evidence for the association of cathepsin K with the granulomatous reaction. Granulomas are inflammatory tissue reactions against persistent pathogens or foreign bodies. We came across cathepsin K while working on Echinococcus granulosus, a persistent tissue-dwelling, cyst-forming parasite that elicits a granulomatous response. MATERIALS AND METHODS: The walls of hydatid cysts from infected cattle were solubilized. Strong proteolytic activity was detected in the extracts. The proteinase responsible was purified by anion exchange and gel filtration. The purified protein was subjected to N-terminal sequencing, and its identity further confirmed by Western blotting, with a cathepsin K-specific antibody. The same antibody was used to localize the proteinase in paraffin-embedded sections of the parasite and the local host response. RESULTS: A proteinase was purified to near homogeneity from hydatid cyst extracts. The enzyme was unequivocally identified as host cathepsin K. Both the proenzyme and the mature enzyme forms were found. Cathepsin K was then immunolocalized both to the parasite cyst wall and to the epithelioid and giant multinucleated cells of the host granulomatous response. CONCLUSIONS: In the granulomatous response to the hydatid cyst, cathepsin K is expressed by epithelioid and giant multinucleated cells. We propose that, by analogy with bone resorption, cathepsin K is secreted by the host in an attempt to digest the persistent foreign body. Both processes, bone resorption and granulomatous reactions, therefore tackle persistent extracellular material (the bone matrix or the foreign body), and utilize specialized cells of the monocytic lineage (osteoclasts or epithelioid/giant cells) secreting cathepsin K as an effector.     

A study of enamel matrix proteins on differentiation of porcine bone marrow stromal cells into cementoblasts

OBJECTIVE: To further explore the role of enamel matrix proteins (EMPs) in periodontal regeneration, we have used porcine bone marrow-derived stromal cells (BMSCs) to observe whether the EMPs could have an effect on their differentiation into cementoblasts. MATERIALS AND METHODS: In this study, EMPs were extracted from porcine tooth germs by the use of acetic acid. BMSCs obtained from porcine iliac marrow aspiration were inoculated onto the surface of autologous root slices treated with or without EMPs. Following 7-day co-culture, all the BMSC-seeded root slices, with their respective non-cell-inoculated control specimens, were pocketed with expanded polytetrafluoroethylene membrane and were transplanted subcutaneously into 11 nude mice. The animals were sacrificed after 3 and 8 weeks, and the new specimens were processed for haematoxylin and eosin staining. Results: Histological analysis demonstrated new cellular cementum-like tissue formed along EMP-treated root slices. CONCLUSION: Our work has indicated for the first time, differentiation of BMSCs into cementoblasts using an EMP-based protocol.     

Effects of pregnancy on bone matrix proteins in Wistar rats

Using an EDTA extraction procedure, bones from pregnant Wistar rats were analyzed for their content of collagen and non-collagenous components (sialoprotein, proteoglycan and carbohydrate). The bone matrix size was found to be smaller in pregnant rats than in normal rats (19.5% vs 17.5% of the dry weight bone). The EDTA extractability of the bone protein from pregnant rats was higher than that from controls (2.6% vs 1.9% dry weight bone). EDTA extracts from pregnant rats contained higher amounts of soluble collagen (1.6% vs 0.5% of dry weight tissue) and lower amounts of non-collagenous components (1.65% vs 2.23% for hexoses, 2.38% vs 3.95% for sialic acid and 1.24% vs 1.73% for uronic acid). In bone matrix, collagen content was lower in the pregnant rats (9.45% vs 10.6%). Similarly, the amounts of non-collagenous components were slightly decreased in the bone matrix from the pregnant rats. The respective values were: 0.91% vs 0.93% for hexoses, 0.45% vs 0.52% for sialic acid and 0.39% vs 0.50% for uronic acid. These results suggest that in pregnancy collagen and non-collagenous protein content in bone is decreased while the total mineral content is increased.     

A factor synthesized by rabbit periosteal fibroblasts stimulates bone resorption and collagenase production by connective tissue cells in vitro

Unstimulated monolayer cultures of confluent rabbit periosteal fibroblasts synthesize a factor that stimulates bone resorption in vitro. Furthermore it stimulates rabbit chondrocytes and mouse osteoblasts to synthesize collagenase. The factor has no effect on dead bone in culture, and its activity on live bone is mediated principally by osteoclasts, since it is 75% inhibited by salmon calcitonin. Characterization of the factor by gel filtration and isoelectric focusing indicates an M_r in the range 15 000–25 000 and a pI corresponding to approx. pH 4.7. These biological and physicochemical properties are similar to those reported for a factor released by peripheral blood monocytes. However, whereas human monocyte factor in both the crude and partially-purified state exhibits interleukin-1 activity, crude and fractionated periosteal fibroblast-conditioned medium does not. This is the first report of a conditioned medium containing a molecule like the monocyte-factor which appears to have no interleukin 1 activity. The factor may be synthesized by a wide range of cell types, and could have an important role in mediating connective tissue degradation during both physiological and pathological resorption.