Divergent effects of platelet-endothelial cell adhesion molecule-1 and beta 3 integrin blockade on leukocyte transmigration in vivo

The final stage in the migration of leukocytes to sites of inflammation involves movement of leukocytes through the endothelial cell layer and the perivascular basement membrane. Both platelet-endothelial cell adhesion molecule-1 (PECAM-1/CD31) and the integrin alphavbeta3 have been implicated in this process, and in vitro studies have identified alphavbeta3 as a heterotypic ligand for PECAM-1. In the present study we have addressed the roles of these molecules by investigating and comparing the effects of PECAM-1 and alphavbeta3 blockade on leukocyte migration in vivo. For this purpose we have examined the effects of neutralizing Abs directed against PECAM-1 (domain 1-specific, mAb 37) and beta3 integrins (mAbs 7E3 and F11) on leukocyte responses in the mesenteric microcirculation of anesthetized rats using intravital microscopy. The anti-PECAM-1 mAb suppressed leukocyte extravasation, but not leukocyte rolling or firm adhesion, elicited by IL-1beta in a dose-dependent manner (e.g., 67% inhibition at 10 mg/kg 37 Fab), but had no effect on FMLP-induced leukocyte responses. Analysis by electron microscopy suggested that this suppression was due to an inhibition of neutrophil migration through the endothelial cell barrier. By contrast, both anti-beta3 integrin mAbs, 7E3 F(ab')2 (5 mg/kg) and F11 F(ab')2 (5 mg/kg), selectively reduced leukocyte extravasation induced by FMLP (38 and 46%, respectively), but neither mAb had an effect on IL-1beta-induced leukocyte responses. These findings indicate roles for both PECAM-1 and beta3 integrins in leukocyte extravasation, but do not support the concept that these molecules act as counter-receptors in mediating leukocyte transmigration.

A new specialized cell-matrix interaction in actively resorbing osteoclasts

We have identified a novel cell-matrix interaction in activated osteoclasts. Resorbing osteoclasts maintain a barrier adjacent to the bone surface that prevents the leakage of secreted protons and proteases from the resorption area. Using a series of fluorescent dyes of known molecular mass and different surface charge we established that negatively charged molecules with M(r)up to 10,000 rapidly accumulate underneath actively resorbing osteoclasts. Live cell imaging shows that staining could be detected underneath the osteoclasts as early as 30 seconds after the addition of the low molecular mass markers. We provide evidence that the actin cytoskeleton and the adhesion substrate in contact with the cells are critically involved in the maintenance of the sealing barrier. These data taken together suggest that the accumulation under resorbing osteoclasts is by diffusion rather than transcytotic delivery. Our results indicate that the net concentration of secreted and resorbed components is a balance between generation rate and limited diffusion rather than the presence of an impermeable barrier as previously suggested. This dynamic osteoclast sealing zone may, thus, provide the mechanism by which osteoclast migration and resorption can occur simultaneously.

New technologies in scanning probe microscopy for studying molecular interactions in cells

Atomic force microscopy (AFM) is a specialised form of scanning probe microscopy, which was invented by Binnig and colleagues in 1986. Since then, AFM has been increasingly used to study biomedical problems. Because of its high resolution, AFM has been used to examine the topography or shape of surfaces, such as during the molecular imaging of proteins. This, combined with the ability to operate under known force regimes, makes AFM technology particularly useful for measuring intermolecular bond forces and assessing the mechanical properties of biological materials. Many of the constraints (e.g. complex instrumentation, slow acquisition speeds and poor vertical range) that previously limited the use of AFM in cell biology are now beginning to be resolved. Technological advances will enable AFM to challenge both confocal laser scanning microscopy and scanning electron microscopy as a method for carrying out three-dimensional imaging. Its use as both a precise micro-manipulator and a measurement tool will probably result in many novel and exciting applications in the future. In this article, we have reviewed some of the current biological applications of AFM, and illustrated these applications using studies of the cell biology of bone and integrin-mediated adhesion.

Adapting atomic force microscopy for cell biology

We present details of our AFM modifications to produce an adaptable imaging system for the cell biologist. We have designed and validated a new inverted microscope interface and a scan head with increased Z-range, based upon the TopoMetrix Explorer AFM. We have utilised these changes, together with home-made glass ball cantilevers, to obtain topographical information over cells with large Z-dimension (over 15 microm high), and mapped calcitonin-calcitonin receptor binding forces in living bone cells. We conclude that modified AFM can be used to evaluate intermolecular events in living cells and that this approach will ensure general application to the study of receptor-ligand interactions under truly physiological conditions.

Study of the nonresorptive phenotype of osteoclast-like cells from patients with malignant osteopetrosis: a new approach to investigating pathogenesis

Osteopetrosis manifests as failure of osteoclastic bone resorption. The cause of the disease lies either in the hematopoietic lineage or in the bone marrow stromal microenvironment. It has not been possible to define the cell type involved in the various forms of the human disease because of the inability to form human osteoclasts in vitro. Using the recently described method for generating human osteoclasts from peripheral blood in coculture with rat osteoblastic UMR 106 cells, we demonstrate that a defect lies in the mature osteoclast-like cells in four cases of this disease. Control and osteopetrotic cocultures generated large numbers of osteoclast-like cells (calcitonin and vitronectin receptor positive, and F-actin ring-positive cells) with similar morphology. Bone resorption did not occur in three of the four osteopetrotic cultures. In case 1, in which bone resorption was identified, the area of resorption was negligible compared with the number of osteoclast-like cells in the culture and was detected only by scanning electron microscopy. In contrast, up to 20% of the bone surface in controls was resorbed. The normal and osteopetrotic osteoclast-like cells had a similar phenotype except that two of the osteopetrotic cases did not express CD44 and two expressed CD44 weakly, whereas CD44 was strongly expressed in the controls. This study shows that it is possible to reproduce in vitro the pathological features of human osteopetrosis, and the assay provides a means of acquiring a greater understanding of the pathogenesis of human osteopetrosis.

An antisense oligonucleotide targeting the alphaV integrin gene inhibits adhesion and induces apoptosis in breast cancer cells

The aim of this study was to show the anti-adhesive potential of an antisense oligodeoxynucleotide (ODN) approach when designed to suppress the cellular function of the alphaV integrin subunit in breast cancer cells. The alphaV integrins play major roles in favouring breast cancer spreading. In this study, we inhibited alphaV subunit synthesis in the human breast carcinoma cell line, MDA-MB231, by a partially phosphorothioated antisense oligodeoxynucleotide (5543-ODN). The alphaV antisense 5543-ODN reduced alphaV, but not actin, mRNA transcription and protein expression by 55% and 65% respectively (1 microM, 72 h). Control sense and mismatch reagents were inactive. The antisense, but not the sense and mismatch, 5543-ODN induced dose- and time-dependent inhibition of MDA-MB231 adhesion to serum, vitronectin, fibrinogen and fibronectin substrates but was inactive on adhesion to laminin. Thus, the alphaV integrin was located in adhesion structures, which were disrupted by treatment with the alphaV antisense 5543-ODN. Antisense treated cells also showed evidence of programmed cell death with the appearance of apoptotic bodies. MDA-MB231 cells express a mutant form of the pro-apoptotic factor p53; however, no changes in the expression of p53 were observed by Western blotting. Immunofluorescence did reveal an increased nuclear translocation of p53 suggesting activation of the protein, but such a translocation did not lead to significant changes in either the expression of the cyclin dependent kinase inhibitor, p21(WAF1/CIP1) the cell survival factor Bcl-2 or the pro-apoptotic factor Bax.

Oligodeoxynucleotide targeted to the alphav gene inhibits alphav integrin synthesis, impairs osteoclast function, and activates intracellular signals to apoptosis

The alphav integrin subunit is highly expressed in osteoclasts where it dimerizes with beta1 and beta3 subunits to form receptors for vitronectin and bone sialoproteins. Inhibition of osteoclast adhesion and function has previously been achieved by alphavbeta3 antibodies or Arg-Gly-Asp-containing peptides which have the disadvantages of blocking a single receptor type, or of being rather nonspecific, respectively. Here we show that alphav integrin expression in rabbit osteoclasts can be inhibited by partially phosphorothioated antisense oligodeoxynucleotide (ODN) spanning the adenine-uracil-guanine (AUG) translational start site of the human/rabbit alphav gene, a procedure which offers the advantage of affecting all the alphav receptors with high efficiency. The alphav antisense ODN caused a dose-dependent, substrate-specific reduction of osteoclast adhesion and bone resorption. Control ODNs, such as sense, inverted, and mismatch, were without effect, providing evidence of specificity of the antisense reagent. It is likely as a consequence of loss of substrate interaction, the antisense ODN induced osteoclast retraction and apoptosis, increase of the cyclin/cyclin-dependent kinase complex inhibitor p21WAF1/CIP1, and inhibition of the cell survival gene, bcl-2. Although the expression of the cell death-promoting gene, bax, remained unchanged, a reduction of the bcl-2/bax ratio, known to underlie the intracellular signal to apoptosis, was observed. This finding led us to hypothesize that these changes could provide a link between reduction of alphav synthesis and osteoclast programmed death. In conclusion, this study provides novel insights into the use of alphav antisense ODN as an efficacious mechanism for blocking osteoclast function and underscores for the first time the involvement of integrins in bone cell apoptosis. In vivo studies may verify potential application of this ODN as alternative therapy for bone diseases.

Beta1 integrin antisense oligodeoxynucleotides: utility in controlling osteoclast function

The involvement of beta1 integrins in osteoclast function has been investigated by utilising an antisense oligodeoxynucleotide (ODN) approach. 18-mer antisense and control phosphorothioate ODNs were made to a conserved internal region of beta1 integrin sequence (nucleotide positions 1634-1651 of the human beta1 fibronectin receptor). These were tested on rabbit osteoclasts for anti-adhesive and resorptive effects mediated by alphaVbeta3 and alpha2beta1, the major integrins of osteoclasts. Antisense, but not control, beta1 ODNs inhibited osteoclast adhesion to collagen-coated glass (by up to 70%), but not to glass coated with vitronectin, fibronectin or fibrinogen. Adhesion to dentine and subsequent resorption were also inhibited (up to 60%) in a sequence-specific manner. The mechanism of action was verified using both a melanoma cell line, DX3, which expresses multiple integrins at high level including alphaVbeta3 and alpha2beta1, and in a rabbit osteoclast marrow culture (BMC) system. Exposure of DX3 cells to antisense ODN for up to 48 hours reduced adhesion to FCS- and collagen-coated glass, and concomitantly inhibited beta1 protein expression assessed by FACS and Western blot analysis; expression of other integrin subunits, alphaV and beta3, was unaffected. Similarly, the beta1 protein levels in the BMC were reduced by > 75% without any effect on actin expression. These data reveal the utility of antisense ODNs in exploring osteoclast biology and further define the functional role of osteoclastic beta1 integrin(s).

Single integrin molecule adhesion forces in intact cells measured by atomic force microscopy

Cross-talk between cells and the extracellular matrix is critically influenced by the mechanical properties of cell surface receptor-ligand interactions; these interactions are especially well defined and regulated in cells capable of dynamically modifying their matrix environment. In this study, attention was focused on osteoclasts, which are absolutely dependent on integrin extracellular matrix receptors in order to degrade bone; other bone cells, osteoblasts, were used for comparison. Integrin binding forces were measured in intact cells by atomic force microscopy (AFM) for several RGD-containing (Arg-Gly-Asp) ligands and ranged from 32 to 97 picoNewtons (pN); they were found to be cell and amino acid sequence specific, saturatable and sensitive to the pH and divalent cation composition of the cellular culture medium. In contrast to short linear RGD hexapeptides, larger peptides and proteins containing the RGD sequence, such as osteopontin (a major non-collagenous bone protein) and echistatin (a high affinity RGD sequence containing antagonist snake venom protein), showed different binding affinities. This demonstrates that the context of the RGD sequence within a protein has considerable influence upon the final binding force for receptor interaction. These data also demonstrate that AFM, as a methodological approach, can be adapted to cell biology studies wherever cell-matrix interactions play a critical role, and, moreover, may have applicability to the analysis of receptor-ligand interactions in cell membranes in general.

Arg-gly-Asp (RGD) peptides and peptidomimetics as therapeutics: relevance for renal diseases

Cells interact with the extracellular matrix and other cells via cell adhesion receptors which include those of the integrin family. Since the pivotal demonstration in 1984 by Pierschbacher and Ruoslahti that cell adhesion mediated by fibronectin could be inhibited by the simple tripeptide, Arg-Gly-Asp (RGD), then number of other peptide sequences have been shown to recapitulate integrin-ligand interactions. Similarly, the function of integrins in normal renal development and physiology and changes in adhesion receptor expression in diseases, such as glomerulonephritis or renal carcinoma, have suggested that abnormal integrin function in the kidney could be susceptible to modification by integrin antagonists. This possibility has been tested in experimental acute renal failure with 'RGD peptides' and in modifying renal tranpslant rejection in patients by use of antibodies to various leucocyte or endothelial cell adhesion molecules. The recent development of a number of orally active, non-peptidic integrin antagonists suggests that treatment of a range of renal diseases may be susceptible to strategies that involve the blockade of integrin function or modulation of their expression.

Interleukin-5 expression in the lung epithelium of transgenic mice leads to pulmonary changes pathognomonic of asthma

We have generated transgenic mice that constitutively express murine interleukin (IL)-5 in the lung epithelium. Airway expression of this cytokine resulted in a dramatic accumulation of peribronchial eosinophils and striking pathologic changes including the expansion of bronchus-associated lymphoid tissue (BALT), goblet cell hyperplasia, epithelial hypertrophy, and focal collagen deposition. These changes were also accompanied by eosinophil infiltration of the airway lumen. In addition, transgenic animals displayed airway hyperresponsiveness to methacholine in the absence of aerosolized antigen challenge. These findings demonstrate that lung-specific IL-5 expression can induce pathologic changes characteristic of asthma and may provide useful models to evaluate the efficacy of potential respiratory disease therapies or pharmaceuticals.

The alpha v beta 3 integrin "vitronectin receptor"

The alpha v beta 3 "vitronectin receptor" is a member of the integrin superfamily of adhesion molecules. As such, this 160/85 kDa heterodimeric protein exhibits many of the typical structural and functional features of integrins. It mediates cell adhesion to extracellular matrix by recognizing the conserved arg-gly-asp (RGD) sequence of several plasma and matrix proteins. Recently, it has also been shown that alpha v beta 3 is involved in signal transduction and cell to cell interactions. alpha v beta 3 is highly expressed in bone resorbing cells, osteoclasts, and upregulated in response to vascular damage, during angiogenesis and in certain types of malignancy. Antagonists of alpha v beta 3 are being developed for use in a variety of diseases associated with altered receptor function or level.

A peptidomimetic antagonist of the alpha(v)beta3 integrin inhibits bone resorption in vitro and prevents osteoporosis in vivo

Osteoclastic bone degradation requires intimacy between the matrix and the resorptive cell. While the precise role the integrin alpha(v)beta3 plays in the process is not yet understood, occupancy of the heterodimer by soluble ligand or by blocking antibody effectively inhibits bone resorption in vitro and in vivo, suggesting that alpha(v)beta3 blockade may prevent postmenopausal osteoporosis. Thus, we identified a synthetic chemical peptide mimetic, beta-[2-[[5-[(aminoiminomethyl)amino]-1-oxopentyl]amino]-1-+ ++oxoethyl]amino-3-pyridinepropanoic acid, bistrifluoroacetate (SC56631) based upon the alpha(v)beta3 ligand, Arg-Gly-Asp (RGD), which recognizes the isolated integrin, and its relative, alpha(v)beta5, as effectively as does the natural peptide. The mimetic dampens osteoclastic bone resorption in vitro and in vivo. Most importantly, intravenous administration of the mimetic prevents the 55% loss of trabecular bone sustained by rats within 6 wk of oophorectomy. Histological examination of bones taken from SC56631-treated, oophorectomized animals also demonstrates the compound's bone sparing properties and its capacity to decrease osteoclast number. Thus, an RGD mimetic prevents the rapid bone loss that accompanies estrogen withdrawal.

Trafficking of matrix collagens through bone-resorbing osteoclasts

An intracellular pathway for proteins liberated from mineralized matrix during resorption was identified in osteoclasts. Analysis by confocal microscopy of sites of active bone resorption showed that released matrix proteins, including degraded type I collagen, were endocytosed along the ruffled border within the resorption compartment and transcytosed through the osteoclast to the basolateral membrane. Intracellular trafficking of degraded collagen, as typified by the resorbing osteoclast, may provide the cell with a regulatory mechanism for the control of tissue degradation.

Expression of IL-5 in thymocytes/T cells leads to the development of a massive eosinophilia, extramedullary eosinophilopoiesis, and unique histopathologies

Transgenic mice were generated using regulatory elements from the CD3delta gene to drive T cell expression of IL-5. Expression of this cytokine resulted in white blood cell counts that expand virtually unabated (approximately 400,000 cells/mm3). This expansion is characterized by a profound eosinophilia (>60%) and commensurate increases in the absolute numbers of all other white blood cell types. In particular, circulating B220+ B lymphocyte populations increased >30-fold over wild-type (+/+) levels. Cell differentials and expression studies using a marker for eosinophil precursor cells (major basic protein gene expression) suggest that the peripheral eosinophilia is induced primarily through the establishment of extramedullary sites of eosinophilopoiesis. These mice display a massive peritoneal cavity cell exudate (1-2 x 10(8) cells) dominated by eosinophils (approximately 50%) and the infiltration of eosinophils in nearly all organ systems. Sudden unexplained death occurs in 70% of all transgenic animals by 12 mo of age. Surviving transgenic animals display severe inflammatory pathologies that include ulcerating skin lesions as well as lower bowel inflammation. These pathologies parallel clinical observations of patients with a profound eosinophilia and imply that IL-5 effector functions during some inflammatory responses may be contingent upon peripheral lymphohemopoietic expression.

Expression of IL-5 in thymocytes/T cells leads to the development of a massive eosinophilia, extramedullary eosinophilopoiesis, and unique histopathologies

Transgenic mice were generated using regulatory elements from the CD3delta gene to drive T cell expression of IL-5. Expression of this cytokine resulted in white blood cell counts that expand virtually unabated (approximately 400,000 cells/mm3). This expansion is characterized by a profound eosinophilia (>60%) and commensurate increases in the absolute numbers of all other white blood cell types. In particular, circulating B220+ B lymphocyte populations increased >30-fold over wild-type (+/+) levels. Cell differentials and expression studies using a marker for eosinophil precursor cells (major basic protein gene expression) suggest that the peripheral eosinophilia is induced primarily through the establishment of extramedullary sites of eosinophilopoiesis. These mice display a massive peritoneal cavity cell exudate (1-2 x 10(8) cells) dominated by eosinophils (approximately 50%) and the infiltration of eosinophils in nearly all organ systems. Sudden unexplained death occurs in 70% of all transgenic animals by 12 mo of age. Surviving transgenic animals display severe inflammatory pathologies that include ulcerating skin lesions as well as lower bowel inflammation. These pathologies parallel clinical observations of patients with a profound eosinophilia and imply that IL-5 effector functions during some inflammatory responses may be contingent upon peripheral lymphohemopoietic expression.

Beta 1 integrins and osteoclast function: involvement in collagen recognition and bone resorption

The extracellular matrix of bone is composed mainly of type I collagen. In this report we studied the role and collagen-binding properties of osteoclast integrins (alpha v, alpha 2, beta 1, and beta 3). Cell adhesion assays with rat osteoclasts and affinity chromatography/SDS-PAGE analysis with purified human osteoclast membranes demonstrated adhesion of osteoclasts to native type I collagen in a divalent cation and Arg-Gly-Asp (RGD)-dependent way via alpha 2 beta 1 integrin, whereas osteoclast adhesion to denatured collagen predominantly involved alpha v beta 3. In receptor-binding assays, the involvement of human recombinant alpha v beta 3 in adhesion to denatured collagen was confirmed. Additionally, osteoclasts adhered to type I collagen fibers and to monomeric types II-V collagen with characteristics similar to those on native monomeric type I collagen. Osteoclastic bone resorption in vitro was inhibited (> 40%) in the presence of alpha 2 and beta 1 antibodies. Using scanning laser confocal microscopy, alpha v beta 3, alpha 2, and beta 1 integrin were detected within podosomes in nonresorbing osteoclasts and in the ruffled border area and basolateral membrane in resorbing osteoclasts, but not in the sealing zone of resorbing osteoclasts. These results demonstrate that alpha 2 beta 1, in addition to alpha v beta 3, has an important role in osteoclast function and acts as a receptor for native, but not denatured, collagen.

Cloning of the murine eosinophil peroxidase gene (mEPO): characterization of a conserved subgroup of mammalian hematopoietic peroxidases

The mouse eosinophil peroxidase (mEPO) gene was cloned by screening a random-primed bone marrow cDNA library at reduced criteria using a hEPO cDNA. An mEPO cDNA was subsequently used to isolate the mEPO gene from a lambda-genomic library. The mEPO gene displays a high degree of conservation with its human homologue: the transcription units are approximately the same size, conserve the relative size and position of the 12 exons associated with each gene, and at a nucleotide level the mouse and human EPO genes are 86% identical in the protein coding regions and 66% identical in the 3'-untranslated trailer regions. This strong conservation extends to the encoded proteins which show approximately 90% amino acid identity. Expression of the mEPO gene is restricted to tissues containing eosinophil progenitor cells (e.g., bone marrow and spleen), a pattern similar to the expression of another murine eosinophil granule protein, major basic protein.

Adhesive properties of isolated chick osteocytes in vitro

Different functions have been proposed for osteocytes over time, but it is now generally accepted that their most important task lies in the sensing of strain caused by mechanical loading on bone. The fact that mechanical strain can be sensed as deformation of the extracellular matrix or as fluid shear stress along the cell, in the space between cell membrane and extracellular matrix, requires that osteocytes have close (specialized) contact with the bone matrix. We studied to which extracellular matrix proteins isolated chicken osteocytes adhere and whether this adhesion is mediated by specific cell adhesion receptors called integrins. The adhesive properties of the osteocytes were compared with that of osteoblasts. Osteocytes (and osteoblasts) adhere to the same substrates (i.e., collagen types I and II, collagen fibers, osteopontin, osteonectin, fibronectin, fibrinogen, thrombospondin, and laminin). Cell spreading varied between substrates, from all cells rounded on thrombospondin to all cells fully spread out on osteopontin, osteonectin, vitronectin, fibronectin, fibrinogen, and laminin. The percentage of osteocytes adhered was equivalent to that of osteoblasts adhered on all substrates except osteopontin and vitronectin, where osteocytes adhered less. The adhesion of osteocytes and osteoblasts to osteopontin, osteonectin, vitronectin, and fibrinogen was strongly inhibited, and to fibronectin and laminin moderately, by an RGD peptide. No RGD inhibition was found on collagen. An antibody against chicken integrin alpha v beta 3, the monoclonal antibody (MAb) 23C6, did not interfere with the adhesion of osteocytes and osteoblasts to matrix proteins, whereas an MAb against chicken integrin subunit beta 1 (CSAT) strongly inhibited adhesion to all substrates. Labeling with osteocyte-specific MAbs (OB7.3, OB37.4, and OB37.11) also did not hinder the adhesion of osteocytes to collagen type I, vitronectin, and osteopontin. Adhesion sites on osteocytes were small compared with the large adhesion plaques of osteoblasts, as demonstrated by interference reflection microscopy and immunocytochemically by staining for vinculin. Osteocyte adhesion is analogous to osteoblast adhesion with regard to the range of extracellular matrix proteins to which they adhere. The adhesion is mediated by the integrin subunit beta 1, but other integrins or nonintegrin adhesion receptors are also involved. Osteocytes make contact with the extracellular matrix via small attachment points which colocalize with vinculin. This connection between the bone matrix and the cytoskeleton may be important for osteocytic sensing of mechanical strain, as it supplies a transduction route of extracellular (mechanical) signals into intracellular messages.

Antibody to beta3 integrin inhibits osteoclast-mediated bone resorption in the thyroparathyroidectomized rat

The cell surface integrin, alphaVbeta3, is important for the attachment of osteoclasts to bone matrix and the subsequent resorption of bone. The present study was designed to determine the effects of F11, a monoclonal antibody to the rat beta3 subunit, on calcium mobilization in a rat model of bone resorption. Male Sprague Dawley rats became hypocalcemic within 18 h after thyroparathyroidectomy. Synthetic PTH-related protein (PTHrP(1-34)) administered to control rats caused serum calcium to return to normal. Anti-beta3 treatment of rats after thyroparathyroidectomy inhibited the calcemic response to PTHrP by 65%. Circulating F11 was biologically active as demonstrated by osteoclast retraction and by the inhibition of adenosine diphosphate-induced platelet aggregation via inhibition of the platelet integrin alphaIIbbeta3 in ex vivo assays. F11 antibody was localized by immunohistological staining to osteoclasts in long bones, suggesting that the mechanism of action of the antibody was via a direct effect upon osteoclasts. Echistatin and calcitonin also inhibited calcemic responses to PTHrP in this in vivo model, whereas an isotype-matched, control antibody was ineffective. These studies provide the first direct evidence in vivo that osteoclast-mediated bone resorption is regulated via beta3 integrin.

The identification and cloning of a murine major basic protein gene expressed in eosinophils

The existence of a murine homologue of the major basic protein (MBP) found in human eosinophil granules was initially hypothesized from structural similarities at the electron microscopic level. The results presented in this study have extended these observations by describing the identification/purification of a mouse MBP (mMBP) and the cloning of the gene encoding this eosinophil granule protein. Using protein purification methodologies with extravascular eosinophils, an mMBP homologue has been identified on the basis of strong (64%) N-terminal sequence homology with the mature human MBP (hMBP). Since hMBP results from a proteolytic cleavage of a precursor molecule, this sequence conservation suggests that the mouse granule protein is processed by a similar mechanism. The gene encoding mMBP was isolated using a hMBP cDNA clone as a heterologous probe in low criteria screens of mouse genomic and cDNA libraries. The genomic structure and nucleotide sequence of the mMBP exons are well conserved with the human gene, although homology alignments of the encoded proteins show that extensive sequence conservation occurs only in the mature portion of the MBP molecules. Expression data demonstrate that this gene is transcriptionally active in tissues containing eosinophil progenitor cells, such as femoral bone marrow. Genomic Southern blots using the mMBP gene at reduced stringency reveal the potential existence of a second, more divergent MBP-like sequence in the mouse. This suggests that, as with guinea pigs, the mouse genome may also encode the eosinophil major basic protein from more than one gene.

The identification and cloning of a murine major basic protein gene expressed in eosinophils

The existence of a murine homologue of the major basic protein (MBP) found in human eosinophil granules was initially hypothesized from structural similarities at the electron microscopic level. The results presented in this study have extended these observations by describing the identification/purification of a mouse MBP (mMBP) and the cloning of the gene encoding this eosinophil granule protein. Using protein purification methodologies with extravascular eosinophils, an mMBP homologue has been identified on the basis of strong (64%) N-terminal sequence homology with the mature human MBP (hMBP). Since hMBP results from a proteolytic cleavage of a precursor molecule, this sequence conservation suggests that the mouse granule protein is processed by a similar mechanism. The gene encoding mMBP was isolated using a hMBP cDNA clone as a heterologous probe in low criteria screens of mouse genomic and cDNA libraries. The genomic structure and nucleotide sequence of the mMBP exons are well conserved with the human gene, although homology alignments of the encoded proteins show that extensive sequence conservation occurs only in the mature portion of the MBP molecules. Expression data demonstrate that this gene is transcriptionally active in tissues containing eosinophil progenitor cells, such as femoral bone marrow. Genomic Southern blots using the mMBP gene at reduced stringency reveal the potential existence of a second, more divergent MBP-like sequence in the mouse. This suggests that, as with guinea pigs, the mouse genome may also encode the eosinophil major basic protein from more than one gene.

Structural determinants of calcium signaling by RGD peptides in rat osteoclasts: integrin-dependent and -independent actions

Extensive characterization of the vitronectin receptor (VNR), a member of the integrin group of cell adhesion molecules, which is abundantly expressed in osteoclasts, has revealed a role for this receptor in osteoclast adhesion as well as bone resorption. Earlier evidence from our laboratory suggests that VNR is also capable of transducing intracellular signals following receptor ligand interaction, although this function is poorly understood. Thus, addition of peptides containing the minimal tripeptide Arg-Gly-Asp (RGD) integrin recognition sequence elicits transient increases in intracellular free calcium ions, with maximal responses seen with a bone sialoprotein peptide, BSP-IIA. In the present study we have attempted to determine some of the structural requirements for calcium signaling in osteoclasts using derivatives of the peptide PRGDN/T sequence found in bone sialoprotein. While some peptides, such as the parent sequence PRGDN, can induce both signaling and retractile events, it was found that minor structural modifications yielded peptides such as PRADN which elicited a transient increase in intracellular free calcium ions without promoting a reduction in osteoclast spread area (retraction). Conversely, certain other modifications resulted in peptides, such as PrGDN and benzoyl-RGDN, which effect osteoclast retraction, while having minimal Ca2+ signaling capabilities. Osteoclast adhesion, and hence retraction, are known to be RGD-dependent and integrin-dependent events. However, intracellular Ca2+ signaling is RGD-independent and, based on lack of inhibition by an anti-beta 3 integrin antibody F11 and echistatin, very likely integrin-independent. These data suggest that signaling is not always via VNR and as yet unknown receptors on the osteoclast membrane play a role in osteoclast signaling and hence function.

Interactions of connective tissue cells with the extracellular matrix

Interactions between cells and extracellular matrix components have been shown to be crucial for the regulation of tissue differentiation and function in a range of organisms. Recent work has defined several families of receptors by their domain structure, and the peptide sequence motifs in the ligands which they recognize have been elucidated. Thus, the integrin fibronectin receptor has been shown to recognize "RGD" and other sequences within matrix and plasma proteins. Disruption of these integrin-ligand interactions by gene inactivation via homologous recombination of receptor or ligand, and by use of RGD inhibitors or antibodies, modifies embryonic development and cellular function. Recent evidence from several receptor systems has also demonstrated that they can partake in signal transduction, in addition to adhesive events, leading to the definition of further functional activities. The range of receptors and their ligands involved in matrix interactions and data on their role in a variety of cellular systems are summarized. The therapeutic implications of a fundamental approach to cellular adhesion processes will be highlighted by considering the role of the alpha v beta 3 integrin receptor in osteoclastic bone resorption.

Interaction of osteopontin with osteoclast integrins

Mammalian osteoclasts express three integrin receptors--alpha v beta 3 (vitronectin receptor), alpha 2 beta 1 and alpha v beta 1. The vitronectin receptor recognizes bone matrix proteins, including bone sialoproteins, in an RGD-dependent manner, whereas adhesion to collagen involves beta 1 integrins. Interference with integrin function, by anti-receptor antibodies or RGD-peptides, blocks bone resorption. Data on the mechanism of osteoclast adhesion to sialoproteins and the differential synthesis of osteopontin and bone sialoprotein by osteoclasts is presented. Thus, osteoclasts adhere to both osteopontin and bone sialoprotein with a characteristic irregular morphology with numerous, peripherally placed, actin-rich podosomes. Adhesion is predominantly RGD and beta 3 dependent, though alpha v beta 1 may also be involved in adhesion to bone sialoprotein. KQAGD and AGDV, but not H12, fibrinogen peptides induce osteoclast 'rounding' on osteopontin suggesting there is an alternative anti-adhesive signal to 'RGD.' However, adhesion is not completely inhibited and is not specific for osteopontin as equivalent effects are seen with adhesion to serum. The role of sialoproteins in osteoclast adhesion in situ in the skeleton is complicated by the finding of endogenous synthesis of osteopontin, but not bone sialoprotein, by osteoclasts. The disposition of osteoclast integrins during resorption and the role of integrins and sialoprotein-derived peptides in osteoclast adhesion and function is also reviewed.