17Beta-hydroxysteroid dehydrogenases in human bone cells.

Interconversion of estrogens by osteoblasts may play a role in regulating bone mass. As a first step toward exploring this possibility, we investigated the expression and activity of 17beta-hydroxysteroid dehydrogenases (17beta-HSDs) in cultured human osteoblasts (HOB) and osteoblast-like osteosarcoma cells (MG63, TE85, and SaOS-2). Significant 17beta-HSD activity was detected in cell-free extracts of all bone cells with oxidation of estradiol to estrone predominating over reduction. Reverse transcription-polymerase chain reaction (RT-PCR) experiments showed that the mRNA for 17beta-HSD I was detectable only in MG63 cells, albeit at low levels, while 17beta-HSD II was present in MG63, TE85, and HOB, but not SaOS-2, and 17beta-HSD III was absent from each bone cell type. 17Beta-HSD IV was the only isoform present in all bone cells analyzed. Further analysis of the expression of 17beta-HSD IV in these bone cells by immunoblotting revealed both the full-length 83 kDa protein and the proteolytic 38 kDa form. The kinetic parameters for estradiol oxidation by purified recombinant 17beta-HSD IV (Km = 49.7 microM, Vmax = 79.4 nmol/minute/mg of protein) and its HSD-domain (Km = 79.4 microM, Vmax = 476 nmol/minute/mg of protein) were significantly higher than previously reported, but consistent with the values obtained with crude cell-free extracts of SaOS-2 cells (Km = 98.8 microM, Vmax = 0.07 nmol/minute/mg of protein) which contain only 17beta-HSD IV based on RT-PCR. These studies show that bone cells have the capacity to interconvert circulating estrogens and suggest that bone cell 17beta-HSDs serve primarily to attenuate the continuing actions of estradiol through conversion to its less potent form, estrone, under certain conditions.

Cytokine suppressive anti-inflammatory compounds inhibit bone resorption in vitro.

Data from several laboratories suggest a role for a variety of cytokines in the process of bone resorption. SK&F 86002 [5-(4-pyridyl)-6(4-fluorophenyl)-2,3-dihydroimidazo(2,1-b) thiazole], a potent cytokine-suppressive anti-inflammatory agent, has been shown to inhibit cyclooxygenase (CO) and 5-lipoxygenase (LO) activity and to inhibit the production of cytokines both in vitro and in vivo. In the present study, SK&F 86002 inhibited fetal rat long bone (FRLB) resorption induced by parathyroid hormone (PTH), 1,25-dihydroxy-vitamin D3, tumor necrosis factor alpha, and Escherichia coli lipopolysaccharide in a dose-dependent (IC50 of 0.5-1 microM) and reversible manner. Under identical conditions, selective CO inhibitors (indomethacin, ibuprofen, naproxen) and 5-LO inhibitors (phenidone, SK&F 107649) were inactive. Analogs of SK&F 86002, which are dual CO/LO inhibitors devoid of cytokine inhibitory activity (SK&F 81114 and SK&F 86055), also failed to significantly inhibit PTH-induced FRLB resorption. Analogs of SK&F 86002, which retain cytokine inhibitory activity (SK&F 104493 and SK&F 105561), inhibit bone resorption. These data indicate that the observed inhibition of bone resorption by compounds of this class correlates with their cytokine suppressive activity.

Interleukin 6 production in fetal rat long bone cultures is correlated with PGE2 release and does not correlate with the extent of bone resorption.

Reports from several laboratories have suggested that interleukin 6 (IL-6) may play a role in the process of bone resorption. We have extended these studies by examining the role of IL-6 in fetal rat long bone (FRLB) resorption stimulated by a variety of agents, including parathyroid hormone (PTH); 1,25 dihydroxyvitamin D3 (1,25(OH)2D3); interleukin 1 (IL-1); tumour necrosis factor alpha (TNF-alpha) and lipopolysaccharide (LPS). This model of bone resorption does not require the generation of osteoclasts in order to elicit a resorptive response and allowed us to assess whether IL-6 can directly affect osteoclastic bone resorption. We confirmed previous studies which showed that exogenous recombinant murine or human IL-6 does not stimulate bone resorption and demonstrated that IL-6, when added prior to the addition of parathyroid hormone, caused a significant but somewhat variable inhibition at 120 hours. Exogenous PGE2 stimulated both IL-6 production and resorption in FRLB cultures in a concentration-dependent manner. Endogenous production of IL-6 in fetal rat long bone (FRLB) cultures was stimulus dependent and generally correlated with prostaglandin E2 (PGE2) levels in the same cultures. However, endogenous IL-6 production did not correlate with the extent of bone resorption, except when IL-1 and PGE2 were used as stimuli. Addition of indomethacin and diclofenac to IL-1 stimulated cultures demonstrated that both the IL-6 production and bone resorption were largely PGE-2 dependent. Neutralizing anti-IL-6 antibodies inhibited IL-6 activity in FRLB cultures but did not affect bone resorption, even in the IL-1 stimulated cultures.(ABSTRACT TRUNCATED AT 250 WORDS)

Mechanisms of paraneoplastic syndromes of colon-26: involvement of interleukin 6 in hypercalcemia.

The precise mechanisms responsible for increased calcium levels in patients with cancer are not fully understood. In a recent study, the participation of interleukin (IL)-6 as an important mediator of key parameters of cancer cachexia in the colon-26 adenocarcinoma was reported. Here, we show that in addition to cachexia, C-26 tumour bearing mice also develop hypercalcemia. Treatment of these mice with 5' deoxyfluorouridine significantly reduces tumour size and inhibits both hypercalcemia, cachexia, and elevated serum IL-6. Moreover, monoclonal antibody to mouse IL-6 prevents both the cachexia and the hypercalcemia and reduces serum IL-6 levels in C-26 tumour bearing hosts. The administration of a bisphosphonate compound (Clodronate) reverses the hypercalcemia but has no effect on tumour burden, serum IL-6 levels, or wasting. We conclude that tumour-derived IL-6 plays a role in the pathogenesis of the C-26 associated hypercalcemia, and that the increase of serum calcium does not by itself mediate cachexia.

Inhibition of immune reactions in vivo by liposome associated transforming growth factor (TGF) type beta 1.

In view of its potent inhibitory capacity on immune cells in culture, we wished to determine the ability of transforming growth factor (TGF) beta 1 to down-regulate immune responses in vivo. Preliminary experiments suggested that, at the doses used, systemic injection of soluble TGF beta 1 could not affect bacterial-induced spleen enlargement in mice. Therefore, we sought to utilize a physiochemical property of this molecule, namely its high pI, to determine possible association between the ligand and preformed liposomes possessing an opposite charge. TGF beta 1 was preferentially associated with negatively charged, but not with neutral, liposomes. These TGF beta 1 associated liposomes were able to deliver a suppressive signal to indicator cells in vitro. Intravenous injection of TGF beta 1, associated with liposomes possessing an opposite charge, into mice immunized with heat-killed Corynebacterium parvum significantly reduced the size of the spleen as well as the number of splenocytes. Systemically administered TGF beta 1 associated liposomes could also inhibit delayed type hypersensitivity reactions to Listeria monocytogenes. These data suggest that appropriately administered, TGF beta 1 can inhibit immune responses in vivo.

Differential activity of granulocyte-macrophage and macrophage colony stimulating factors on bone resorption in fetal rat long bone organ cultures.

In this study, the ability of recombinant human macrophage (M) and murine granulocyte-macrophage (GM) colony stimulating factor (CSF) to affect both basal and stimulated bone resorption in fetal rat long-bone organ cultures was assessed. It was found that M-CSF does not affect basal bone resorption or bone resorption stimulated by parathyroid hormone, recombinant human interleukin 1 beta, prostaglandin E2 (PGE2), and 1,25 dihydroxy vitamin D3. Specifically, M-CSF at concentrations as high as 30 nM (1 microgram/mL) did not modulate 45Ca release from fetal rat long bones stimulated by these agents. The addition of recombinant murine GM-CSF (at equal molar concentration to M-CSF) also did not affect bone resorption stimulated by parathyroid hormone and interleukin 1 beta. On the other hand, GM-CSF stimulated basal bone resorption over a 120-h period and augmented the resorption mediated by exogenous PGE2 over a 48-h incubation. In addition, GM-CSF was shown to stimulate production of endogenous PGE2 in cultures of bone rudiments. These effects on bone resorption were blocked by the addition of prostaglandin synthesis inhibitors and specific antibodies to murine GM-CSF. These data indicate that M-CSF does not act as a regulator of bone turnover, but GM-CSF may cause bone resorption by stimulating the synthesis of PGE2 in bone.

Regulation of murine mononuclear phagocyte inflammatory products by macrophage colony-stimulating factor. Lack of IL-1 and prostaglandin E2 production and generation of a specific IL-1 inhibitor.

The influence of macrophage (M)-CSF on the production of inflammatory mediators has been examined in murine peritoneal macrophages. Cultures of macrophages treated with up to 30,000 U/ml of human rM-CSF or with 10,000 U/ml of L929-derived M-CSF did not reveal either PGE2, IL-1, or IL-6 secretion. In contrast, LPS, which served as a positive control, stimulated production of significant levels of PGE2, IL-1, and IL-6. Furthermore, Northern blot analysis of macrophage RNA revealed a strong induction of IL-1 alpha and IL-6 mRNA by LPS but not by M-CSF. Conditioned medium from macrophage cultures treated with purified L929 or human rM-CSF in combination with LPS exhibited a significant reduction of IL-1 bioactivity as compared with an LPS challenge alone. To investigate the mechanism involved in this M-CSF-dependent reduction of IL-1 bioactivity, we measured IL-1 alpha gene expression. The addition of M-CSF to LPS-treated macrophages did not affect IL-1 alpha mRNA levels suggesting that M-CSF may regulate production of an IL-1 inhibitor. This hypothesis was shown to be valid because removal of IL-1 alpha from conditioned medium of LPS plus M-CSF-treated cells allowed the detection of a nondialyzable factor that blocked IL-1-dependent thymocyte proliferation. The inhibitor appeared to be specific because it did not inhibit IL-2 and TNF bioactivities. Furthermore, this IL-1 inhibitor, which binds to cells and not to IL-1, competed with the binding of radioactive IL-1 alpha or beta to EL-4.6.1 cells. The results demonstrate that M-CSF alone does not induce proinflammatory mediators and PGE2 as was previously published. The data also suggest that M-CSF may play a role in the down-regulation of inflammatory responses.

Biotinylated parathyroid hormone as a probe for the parathyroid hormone receptor. Structure-function analysis and detection of specific binding to cultured bone cells by flow cytometry.

The synthetic bovine parathyroid hormone (PTH) analog (Nle8, Nle18, Tyr34) bovine PTH(1-34)amide (bPTH(1-34)amide) was reacted with biotinyl-epsilon aminocaproic acid-N-hydroxysuccinimide under conditions which yielded five isoforms which were fractionated by a combination of reversed phase and ion-exchange chromatography. These reaction products were analyzed by automated Edman degradation in a manner which allowed us to specify the location and number of biotin residues on picomole quantities of hormone. The ability of each of these isoforms to induce a rise in intracellular cAMP in the ROS 17/2.8 cell line allowed us to evaluate the effect on function of biotinylation at different residues. Derivatized PTH molecules which contained a single biotin at either lysine 13, lysine 26, or lysine 27 possessed full biological activity. However, bioactivity was significantly reduced when position 13 plus either lysine 26 or 27 were biotinylated. Biological activity was lost when all 3 lysine residues were biotinylated. Biotinylation of the alpha-NH2 group of alanine at the NH2 terminus also resulted in a total loss of activity. Hence, unlike the effect of altering the alanine at position 1, modification of a single lysine residue at positions 13, 26, and 27 has a less critical effect on biological activity of the molecule. However, biotinylation of all three lysines results in a biologically inert PTH derivative and suggests that changes in isoelectric point, hydrophobicity, or tertiary structure may strongly influence hormone function. A fully bioactive-mixture of isoforms was used to detect receptors on ROS 17/2.8 cells by flow cytometry using fluorescein isothiocyanate-avidin as a fluorescent indicator. Binding to cell surface receptors was saturable and could be inhibited by native bPTH(1-34) but not by transforming growth factor beta, calcitonin or insulin. Moreover, PTH receptors could also be detected on primary cultures of human bone cells and human fibroblasts.

Modulation of TGF-beta type 1 receptor: flow cytometric detection with biotinylated TGF-beta.

Transforming growth factor beta type 1 (TGF-beta 1) was reacted with NHS-biotin to yield a derivative of TGF-beta 1 which was biotinylated on lysine residues. The biotinylated form of TGF-beta 1 was separated from the unreacted material by reverse phase chromatography. In three separate bioassays, the derivatized peptide was as active as the starting material. The use of FITC-avidin in conjunction with flow cytometry demonstrated that the binding of biotinylated TGF-beta 1 to its receptor is saturable, competable, and specific. A 100-fold molar excess of underivatized TGF-beta 1 gave 85% inhibition of binding of the biotinylated peptide to the mink lung cell line CCL-64, while TGF-beta 2 showed no inhibition of binding, nor did insulin, calcitonin, or TGF-alpha. Both CCL-64 cells and human umbilical vein endothelial cells showed a density-dependent down-regulation of receptor expression in culture. Several factors were examined that might mediate this effect. The down-regulation was shown not to be due to the secretion of an active form of TGF-beta 1. The extracellular matrix from high-density cells did not decrease expression of the receptor. Fibronectin, collagen, and gelatin were also unable to signal changes in receptor expression, even though in other systems such matrix components can regulate the responsiveness of cells to TGF-beta 1. Lastly, staining simultaneously for DNA content and TGF-beta 1 receptor expression showed that there was no correlation between cell cycle and receptor levels.

Production of lymphotoxin, a bone-resorbing cytokine, by cultured human myeloma cells.

Myeloma cells destroy bone by producing an osteoclast-stimulating factor that has chemical and biological characteristics similar to the bone-resorbing activity present in the supernatants of activated leukocyte cultures. Recently, a number of bone-resorbing leukocyte cytokines have been identified, including interleukin-1, lymphotoxin, and tumor necrosis factor. We have examined the products of human myeloma cells for the presence of these bone-resorbing cytokines. In a tumor cell line derived from a patient who had myeloma with osteolytic bone lesions and hypercalcemia, we found that the myeloma cells induced bone-resorbing activity and cytotoxic activity in vitro. Most of the bone-resorbing activity and all cytotoxic activity were suppressed by neutralizing antibodies to lymphotoxin. The myeloma cells expressed both lymphotoxin and tumor necrosis factor mRNA, but no tumor necrosis factor could be detected in the cell-culture medium. Interleukin-1 mRNA was not detected in the myeloma cells, and biologic activity of interleukin-1 was not measurable in the medium harvested from the cultured cells. The bone-resorbing activity induced by recombinant tumor necrosis factor and recombinant interleukin-1 was not affected by treatment with the lymphotoxin antibodies. When lymphotoxin was infused subcutaneously into normal mice (10 micrograms per day for three days), their plasma calcium levels increased. We also evaluated four established cell lines derived from three other patients with myeloma, and found a similar pattern of lymphotoxin expression in each. It appears that production of the bone-resorbing cytokine lymphotoxin is related to osteoclastic bone destruction and hypercalcemia in patients with myeloma.

Production of 1,25-dihydroxyvitamin D3 by human T cell lymphotrophic virus-I-transformed lymphocytes.

The human T cell lymphotrophic virus type I (HTLV-I) has recently been identified in a T cell lymphoma associated with hypercalcemia and increased bone turnover. Since increased serum concentrations of 1,25-dihydroxyvitamin D have been reported in this disease, we have examined the capacity of HTLV-I-infected cord blood lymphocytes to metabolize 25-hydroxyvitamin D3. Our results demonstrate that HTLV-I-infected cells have the capacity to metabolize 25-hydroxyvitamin D3 to a substance that co-migrates with 1,25-dihydroxyvitamin D3 by high performance liquid chromatography over a silica column using either 12% isopropanol in hexane or 5% isopropanol in dichloromethane. The metabolite binds to the 1,25-dihydroxyvitamin D3 receptor in rat osteosarcoma cells and stimulates bone resorption in cultures of fetal rat long bones. Mass spectrometric analysis of the metabolite confirmed the presence of 1,25-dihydroxyvitamin D3. Production of 1,25-dihydroxyvitamin D by lymphoma cells may contribute to the pathogenesis of the hypercalcemia seen in patients with HTLV-I-associated T cell lymphomas.

Stimulation of bone resorption and inhibition of bone formation in vitro by human tumour necrosis factors.

When leukocytes are exposed to mitogens or antigens in vitro, they release bone-resorbing activity into the culture supernatants which can be detected by bioassay. Like many lymphocyte-monocyte products, this activity has been difficult to purify because of its low abundance in activated leukocyte cultures and the unwieldy bioassay required to detect biological activity. Partially purified preparations of this activity inhibit bone collagen synthesis in organ cultures of fetal rat calvariae. Recent data suggest that both activated lymphocytes and monocytes release factors which could contribute to this activity. Recently, monocyte-derived tumour necrosis factor alpha (TNF-alpha) and lymphocyte-derived tumour necrosis factor beta (TNF-beta) (previously called lymphotoxin), two multifunctional cytokines which have similar cytotoxic effects on neoplastic cell lines, have been purified to homogeneity and their complementary DNAs cloned and expressed in Escherichia coli. As both of these cytokines are likely to be present in activated leukocyte supernatants, we tested purified recombinant preparations for their effects on bone resorption and bone collagen synthesis in vitro, and report here that both cytokines at 10(-7) to 10(-9) M caused osteoclastic bone resorption and inhibited bone collagen synthesis. These data suggest that at least part of the bone-resorbing activity present in activated leukocyte culture supernatants may be due to these cytokines.

Factors associated with humoral hypercalcemia of malignancy stimulate adenylate cyclase in osteoblastic cells.

The culture media of three cell lines, a human prostate carcinoma (PC3), a rat Leydig cell tumor (Rice-500), and a rat carcinosarcoma (WRC-256), that were derived from tumors associated with humoral hypercalcemia of malignancy (HHM), were examined for stimulation of adenylate cyclase in ROS 17/2.8 osteoblastic cells and for bone resorptive activity in culture. Cells from a nonhypercalcemic variant of the WRC256 tumor served as control. Extracts from three solid human tumors, a lung adenocarcinoma from a patient with HHM and two adenocarcinoma from normocalcemic patients (lung and colon), were also examined for adenylate cyclase stimulation. We found excellent correlation between stimulation of cyclic AMP accumulation in ROS 17/2.8 cells and bone resorbing activity in culture, or production of HHM in vivo. Stimulation of adenylate cyclase by HHM factors was inhibited by the parathyroid hormone competitive inhibitor, [8norleucyl, 18norleucyl, 34tyrosinyl] bovine parathyroid hormone (3-34) amide.

Protease-insensitive sea urchin embryo cell adhesions become protease sensitive in the presence of azide or cytochalasin B.

To understand the nature of the cell adhesions that must be modified during sea urchin embryo primary mesenchyme formation, we are studying the adhesive components of the hatched blastula stage embryo of Strongylocentrotus purpuratus. Pronase treatment conditions have been defined that leave the cells intact and able to recover from the effects of the protease upon its removal. Under these conditions, adhesion of the cells to tissue culture plates is totally eliminated, but cell-cell adhesion formation is only partially inhibited. Analysis of iodinated cell surface proteins indicates that most are affected by the pronase. Further studies of pronase effects found that sodium azide-treated cells are slightly adhesive and that pronase treatment of azide-treated cells totally eliminates cell-cell adhesions.