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Specific cleavage of the transmembrane molecule, CUB domain-containing protein-1 (CDCP1), by plasmin-like serine proteases induces outside-in signal transduction that facilitates early stages of spontaneous metastasis leading to tumor cell intravasation, namely cell escape from the primary tumor, stromal invasion and transendothelial migration. We identified active ß1 integrin as a biochemical and functional partner of the membrane-retained 70-kDa CDCP1 fragment, newly generated from its full-length 135-kDa precursor though proteolytic cleavage by serine proteases. Both in cell cultures and in live animals, active ß1 integrin complexed preferentially with functionally activated, phosphorylated 70-kDa CDCP1. Complexing of ß1 integrin the 70-kDa with CDCP1 fragment induced intracellular phosphorylation signaling, involving focal adhesion kinase-1 (FAK) and PI3 kinase (PI3K)-dependent Akt activation. Thus, inhibition of FAK/PI3K activities by specific inhibitors as well as short-hairpin RNA downregulation of ß1 integrin significantly reduced FAK/Akt phosphorylation under conditions where CDCP1 was processed by serine proteases, indicating that FAK/PI3K/Akt pathway operates downstream of cleaved CDCP1 complexed with ß1 integrin. Furthermore, this complex-dependent signaling correlated positively with high levels of tumor cell intravasation and dissemination. Correspondingly, abrogation in vivo of CDCP1 cleavage either by unique cleavage-blocking monoclonal antibody 10-D7 or by inhibition of proteolytic activity of plasmin-like serine proteases with aprotinin prevented ß1 integrin/CDCP1 complexing and downstream FAK/Akt signaling concomitant with significant reduction of stromal invasion and spontaneous metastasis. Therefore, ß1 integrin appears to serve as a motility-regulating partner mediating cross-talk between proteolytically cleaved, membrane-retained CDCP1 and members of FAK/PI3K/Akt pathway. This CDCP1 cleavage-induced signaling cascade constitutes a unique mechanism, independent of extracellular matrix remodeling, whereby a proteolytically cleaved CDCP1 regulates in vivo locomotion and metastasis of tumor cells through ß1 integrin partnering. Our findings indicate that CDCP1 cleavage, occurring at the apex of a ß1 integrin/FAK/PI3K/Akt signaling cascade, may represent a therapeutic target for CDCP1-positive cancers.

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The CUB domain-containing protein-1 (CDCP1) is a transmembrane molecule that has recently been implicated in cancer progression. In this study we have established a novel mechanism for initiation of CDCP1-mediated signaling in vivo and demonstrated that specific 135→70-kDa processing of cell-surface CDCP1 by extracellular serine proteases is a prerequisite for CDCP1-dependent survival of cancer cells during metastasis. The in vivo cleavage of CDCP1 triggers a survival program involving recruitment of Src and PKCδ, Src-mediated phosphorylation of cell-surface-retained 70-kDa CDCP1, activation of Akt and suppression of PARP1-induced apoptosis. We demonstrate in vivo that phosphorylated Src, PKCδ and Akt all constitute activated elements of a CDCP1-signaling axis during tissue colonization of tumor cells. Preventing in vivo cleavage of CDCP1 with unique anti-CDCP1 antibodies, serine protease inhibitors or genetic modulation of the cleavage site in the CDCP1 molecule completely abrogated survival signaling associated with the 70-kDa CDCP1, and induced PARP1 cleavage and PARP1-mediated apoptosis, ultimately resulting in substantial inhibition of tissue colonization by tumor cells. The lack of CDCP1 cleavage in the lung tissue of plasminogen-knockout mice along with a coordinated reduction in tumor cell survival in a lung retention model, and importantly rescue of both by in vivo supplied plasmin, indicated that plasmin is the crucial serine protease executing in vivo cleavage of cell-surface CDCP1 during early stages of lung colonization. Together, our findings indicate that in vivo blocking of CDCP1 cleavage upstream from CDCP1-induced pro-survival signaling provides a potential mechanism for therapeutic intervention into metastatic disease.

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Identification of expanding roles for matrix metalloproteinases (MMPs) in complex regulatory processes of tissue remodelling has stimulated the search for genes encoding proteinases with unique functions, regulation and expression patterns. By using a novel cloning strategy, we identified three previously unknown human MMPs, i.e. MMP-21, MMP-26 and MMP-28, in comprehensive gene libraries. The present study is focused on the gene and the protein of a novel MMP, MMP-26. Our findings show that MMP-26 is specifically expressed in cancer cells of epithelial origin, including carcinomas of lung, prostate and breast. Several unique structural and regulatory features, including an unusual 'cysteine-switch' motif, discriminate broad-spectrum MMP-26 from most other MMPs. MMP-26 efficiently cleaves fibrinogen and extracellular matrix proteins, including fibronectin, vitronectin and denatured collagen. Protein sequence, minimal modular domain structure, exon-intron mapping and computer modelling demonstrate similarity between MMP-26 and MMP-7 (matrilysin). However, substrate specificity and transcriptional regulation, as well as the functional role of MMP-26 and MMP-7 in cancer, are likely to be distinct. Despite these differences, matrilysin-2 may be a suitable trivial name for MMP-26. Our observations suggest an important specific function for MMP-26 in tumour progression and angiogenesis, and confirm and extend the recent findings of other authors [Park, Ni, Gerkema, Liu, Belozerov and Sang (2000) J. Biol. Chem. 275, 20540--20544; Uría and López-Otín (2000) Cancer Res. 60, 4745--4751; de Coignac, Elson, Delneste, Magistrelli, Jeannin, Aubry, Berthier, Schmitt, Bonnefoy and Gauchat (2000) Eur. J. Biochem. 267, 3323--3329].

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Membrane type-1 matrix metalloproteinase (MT1-MMP) is a key enzyme in the activation pathway of matrix prometalloproteinase-2 (pro-MMP-2). Both activation and autocatalytic maturation of pro-MMP-2 in trans suggest that MT1-MMP should exist as oligomers on the cell surface. To better understand the functions of MT1-MMP, we designed mutants with substitutions in the active site (E240A), the cytoplasmic tail (C574A), and the RRXR furin cleavage motifs (R89A, ARAA, and R89A/ARAA) of the enzyme. The mutants were expressed in MCF7 breast carcinoma cells that are deficient in both MMP-2 and MT1-MMP. Our results supported the existence of MT1-MMP oligomers and demonstrated that a disulfide bridge involving the Cys(574) of the enzyme's cytoplasmic tail covalently links MT1-MMP monomers on the MCF7 cell surface. The presence of MT1-MMP oligomers also was shown for the enzyme naturally expressed in HT1080 fibrosarcoma cells. The single (R89A and ARAA) and double (R89A/ARAA) furin cleavage site mutants of MT1-MMP were processed in MCF7 cells into the mature proteinase capable of activating pro-MMP-2 and stimulating cell locomotion. This suggested that furin cleavage is not a prerequisite for the conversion of pro-MT1-MMP into the functionally active enzyme. A hydroxamate class inhibitor (GM6001, or Ilomastat) blocked activation of MT1-MMP in MCF7 cells but not in HT1080 cells. This implied that a matrixin-like proteinase sensitive to hydroxamates could be involved in a furin-independent, alternative pathway of MT1-MMP activation in breast carcinoma cells. The expression of the wild type MT1-MMP enhanced cell invasion and migration, indicating a direct involvement of this enzyme in cell locomotion. In contrast, both the C574A and E240A mutations render MT1-MMP inefficient in stimulating cell migration and invasion. In addition, the C574A mutation negatively affected cell adhesion, thereby indicating critical interactions involving the cytosolic part of MT1-MMP and the intracellular milieu.

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Cell invasion requires cooperation between adhesion receptors and matrix metalloproteinases (MMPs). Membrane type (MT)-MMPs have been thought to be primarily involved in the breakdown of the extracellular matrix. Our report presents evidence that MT-MMPs in addition to the breakdown of the extracellular matrix may be engaged in proteolysis of adhesion receptors on tumor cell surfaces. Overexpression of MT1-MMP by glioma and fibrosarcoma cells led to proteolytic degradation of cell surface tissue transglutaminase (tTG) at the leading edge of motile cancer cells. In agreement, structurally related MT1-MMP, MT2-MMP, and MT3-MMP but not evolutionary distant MT4-MMP efficiently degraded purified tTG in vitro. Because cell surface tTG represents a ubiquitously expressed, potent integrin-binding adhesion coreceptor involved in the binding of cells to fibronectin (Fn), the proteolytic degradation of tTG by MT1-MMP specifically suppressed cell adhesion and migration on Fn. Reciprocally, Fn in vitro and in cultured cells protected its surface receptor, tTG, from proteolysis by MT1-MMP, thereby supporting cell adhesion and locomotion. In contrast, the proteolytic degradation of tTG stimulated migration of cells on collagen matrices. Together, our observations suggest both an important coreceptor role for cell surface tTG and a novel regulatory function of membrane-anchored MMPs in cancer cell adhesion and locomotion. Proteolysis of adhesion proteins colocalized with MT-MMPs at discrete regions on the surface of migrating tumor cells might be controlled by composition of the surrounding ECM.

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We evaluated cellular mechanisms involved in the activation pathway of matrix prometalloproteinase-2 (pro-MMP-2), an enzyme implicated in the malignant progression of many tumor types. Membrane type-1 matrix metalloproteinase (MT1-MMP) cleaves the N-terminal prodomain of pro-MMP-2 thus generating the activation intermediate that then matures into the fully active enzyme of MMP-2. Our results provide evidence on how a collaboration between MT1-MMP and integrin alphavbeta3 promotes more efficient activation and specific, transient docking of the activation intermediate and, further, the mature, active enzyme of MMP-2 at discrete regions of cells. We show that coexpression of MT1-MMP and integrin alphavbeta3 in MCF7 breast carcinoma cells specifically enhances in trans autocatalytic maturation of MMP-2. The association of MMP-2's C-terminal hemopexin-like domain with those molecules of integrin alphavbeta3 which are proximal to MT1-MMP facilitates MMP-2 maturation. Vitronectin, a specific ligand of integrin alphavbeta3, competitively blocked the integrin-dependent maturation of MMP-2. Immunofluorescence and immunoprecipitation studies supported clustering of MT1-MMP and integrin alphavbeta3 at discrete regions of the cell surface. Evidently, the identified mechanisms appear to be instrumental to clustering active MMP-2 directly at the invadopodia and invasive front of alphavbeta3-expressing cells or in their close vicinity, thereby accelerating tumor cell locomotion.

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Matrix metalloproteinases (MMPs) and integrins have been implicated in a variety of processes involved in tumor progression. To evaluate the individual roles of integrin alphavbeta3 and membrane-type 1 matrix metalloproteinase (MT1-MMP), as well as the effects of their joint expression on tumor cell functions, MCF7 breast carcinoma cells were transfected stably with either the MT1-MMP, the beta3 integrin subunit or both MT1-MMP and beta3 cDNAs. MT1-MMP expression is accompanied by the functional activation of integrin alphaVbeta3, thereby increasing vitronectin-mediated adhesion and migration of MCF7 cells transfected with MT1-MMP and integrin alphaVbeta3. MT1-MMP-dependent functional activation of alphaVbeta3 correlates with modification(s) of the beta3 subunit, including its higher electrophoretic mobility and affected the LM609-binding site. MCF7 cells jointly expressing MT1-MMP and alphaVbeta3 were the most efficient in adhesion to the recombinant C-terminal domain of MMP-2 as well as in generating soluble and cell surface associated mature MMP-2 enzyme. These findings suggest a mechanism of selective docking of MMP-2 at tumor cell surfaces, specifically at the sites that include MT1-MMP and activated integrin alphaVbeta3. These mechanisms may provide a link between spatial regulation of focal proteolysis by the cell surface associated MMPs and the regulation of integrin-mediated motility of tumor cells.

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We assessed the functional significance of tumor cell-associated matrix metalloproteinase (MMP)-2 in extracellular matrix remodeling compared with that of the soluble enzyme by evaluating the contraction of three-dimensional collagen lattices by human glioma U251.3 and fibrosarcoma HT-1080 cell lines. In this model, the constitutive synthesis and activation of the MMP-2 proenzyme were modulated by stable transfections of tumor cells with cDNA encoding membrane type 1-MMP (MT1-MMP). The efficiency of transfected cells in contracting collagen lattices was shown to be dependent on the MT1-MMP-mediated activation of MMP-2 accompanied by cell surface association of activated MMP-2, on the cell-matrix interactions controlled by collagen-specific integrins, and on the integrity of actin and microtubule cytoskeletons. Each one of these mechanisms was essential but was not sufficient by itself in accomplishing gel contraction by MT1-MMP-transfected cells. Both MMP-2 activation and gel contraction by transfected glioma cells were inhibited by tissue inhibitor of metalloproteinase (TIMP)-2 and the recombinant COOH-terminal domain of MMP-2. However, the kinetics and mechanisms of their inhibitory effects were different, because TIMP-2 and the COOH-terminal domain of MMP-2 preferentially inhibited the MT1-MMP-dependent and autocatalytic steps of MMP-2 activation, respectively. By contrast, TIMP-1, an efficient inhibitor of soluble MMP-2 activity, failed to affect gel contraction. In addition, soluble MMP-2 activated by either organomercurials or cells was not able to induce the contraction of collagen lattices when added to transfected cells. Therefore, soluble activated MMP-2, sensitive to TIMP-1 inhibition, does not mediate collagen gel contraction by tumor cells, whereas the activity of cell surface-associated MMP-2 plays a critical role in remodeling of the extracellular matrix in vitro. These mechanisms of functional and spatial regulation of MMP-2 may also be applicable to different aspects of tissue reorganization in vivo, including cell migration and invasion, angiogenesis, and wound healing.

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We tested the hypothesis that there is a correlation between tumor cell efficiency in activation of matrix metalloproteinase-2 (MMP-2) and invasion through basement membrane-like Matrigel barriers. To generate cells capable of MMP-2 activation, we stably transfected three human tumor cell lines, HT-1080 fibrosarcoma, MCF7 breast carcinoma, and U251.3 glioma with cDNA encoding the full length human membrane-type matrix metalloproteinase-1. Our results show a bimodal correlation between the extent of MMP-2 activation and Matrigel invasion by tumor cells. Cell transfectants characterized by a partial activation of MMP-2 were the most invasive while those with an extensive conversion of MMP-2 proenzyme into enzymatically active forms were the least efficient in invading Matrigel. Modulation of MMP-2 activation by exogenous TIMP-2 reverted the rate of Matrigel invasion by cell transfectants to control levels. We conclude that the regulation of activated MMP-2 in the tumor cells, microenvironment may be critical in facilitating tumor cell invasiveness.

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Stable transfection of U251.3 glioma cells with cDNA encoding MT-MMP-1 resulted in increased cell surface expression of MT-MMP-1 and TIMP-2, constitutive activation of MMP-2 proenzyme and increased collagen degradation. In tumor spheroid outgrowth assays, cell migration of MT-MMP-1 transfectants relative to control was enhanced on collagen and decreased on vitronectin and fibronectin. These effects were reversed by TIMP-2 and were not associated with any substantial changes in cell adhesion. Binding of U251.3 cells to the C-terminal domain of MMP-2 was specifically inhibited by anti-(alpha)vss3 integrin blocking antibody indicating that MMP-2 interacts with (alpha)vss3 through the enzyme's C-terminal portion at or near the integrin's matrix adhesion sites. We propose that these mechanisms could govern directed matrix degradation in the tumor cells' microenvironment by sequestration of active MMP-2 on the cell surface. Our data suggest that activation of MMP-2 and its proteolytic activity localized to the cell surface could differentially modulate tumor cell migration in response to particular matrix proteins by altering both composition of the extracellular matrix and expression of adhesion receptors on the cell surface.

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IL-6 has been found to be a potent inhibitor of melanoma A375-C6 cell adhesion, in addition to its known action in arresting cells at G1/G0 phase of the cell cycle IL-6 treated melanoma cells were found to round up and to lose the ability to adhere to fibronectin, laminin, collagen, and tenascin over 72 to 96 hours of IL-6 treatment, a time course similar to that seen for cell cycle inhibition. Cell cycle inhibition and loss of adhesion were found, however, to be independent effects of IL-6. Analysis of cell surface integrins indicated significant changes in the expression of several integrins including downregulation of a3 and av beta 5 and upregulation of a3. However, the changes in integrin expression did not correlate with loss of adhesion to relevant ligands. Three A375 melanoma clones varying in metastatic potential also demonstrated inhibition of both cell proliferation and matrix adhesion by IL-6.

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We have generated a monoclonal antibody (MAb) L1A3 directed to the alpha v integrin subunit as shown by competitive binding with other anti-alpha v-specific MAbs and immunodepletion. MAb L1A3 is a function-blocking antibody inhibiting cell adhesion to the extracellular matrix proteins, fibronectin and vitronectin. Adherence to vitronectin of all cells studied including normal dermal microvascular endothelial cells and three tumor cell lines was inhibited in the presence of MAb L1A3. However, the contribution of the alpha v integrin subunit in mediating adhesion to fibronectin was dependent on the cell line, as indicated by differences in the inhibition of cell adhesion with MAb L1A3 and alpha 5 beta 1 integrin subunit blocking MAb P1D6. Glioma U251.3 cell adhesion to fibronectin was blocked by either MAb L1A3 or MAb P1D6 while fibrosarcoma HT1080 cells were blocked with MAb P1D6 only. Tumor cell migration mediated by vitronectin and fibronectin is blocked by MAb L1A3 in the two-dimensional spheroid outgrowth assay. Microvascular endothelial cell transwell membrane migration onto the fibronectin was also blocked by MAb L1A3. Comparison of the integrins involved in U251.3 cell migration on fibronectin or tenascin using a panel of integrin blocking MAbs including MAb L1A3 showed that only a subset of integrins participating in cell adhesion is essential for cell migration and these integrins appear to be ligand specific. Fibronectin-mediated tumor cell migration was critically dependent on alpha v integrins as shown by L1A3 blocking of migration while the beta 1 integrins were absolutely necessary for tenascin-mediated cell migration.

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The role of tenascin in mediating tumor cell migration was studied using two cell migration models. In migration/invasion Transwell assays U251.3 glioma cells rapidly migrated through the 8 mu m pore size membranes onto tenascin- and fibronectin-coated surfaces. In this assay the number of cells migrating onto tenascin was 52.2 +/- 9.6% greater than on fibronectin within 4 hours. To assess cell migration rates and cell morphology, U251.3 migration was examined in a two-dimension spheroid outgrowth assay. The radial distance migrated by U251.3 cells from tumor spheroids was found to be 53.8 +/- 4.9% greater on tenascin than on fibronectin. Cells migrating on tenascin display a very motile appearance, while cells migrating on fibronectin spread and maintain close intercellular contacts. Cell migration in the presence of integrin blocking antibodies demonstrated that migration on tenascin and fibronectin is mediated by distinct integrins, alpha2beta1 and alphavbeta5/alphavbeta3, respectively. Since tenascin is coexpressed in malignant tumor matrices with fibronectin, we assessed the effects of tenascin on U251.3 cell migration mediated by fibronectin. Tenascin was found to provide a positive effect on fibronectin-mediated migration by altering cell morphology and enhancing cell motility. These effects of tenascin on fibronectin-mediated cell migration were inhibited by blocking beta1 and alpha2beta1 integrins. The results suggest that tenascin may play a significant role in promoting tumor cell migration and invasiveness by modulating cell responses to normal matrix components.

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Knowledge of the stromal microenvironment is crucial for understanding the hematopoietic system. We took advantage of an assay that permits analysis of primary stroma-initiating cells (SICs) on the clonal level, and further characterized SICs and the factors that regulate SICs. Stroma formation in this assay is dependent on a high-molecular-weight factor secreted by the stromal cell line AC3.U. Here we show that this factor is identical to macrophage colony-stimulating factor (M-CSF), and that purified M-CSF is sufficient for induction of stroma formation. M-CSF, isolated from the line AC3.U, as well as from L929 cells and COS cells transfected with an expression vector encoding M-CSF, migrated in two peaks as 160- and 650-kD species after gel filtration. These molecular-weight species encompassed all stroma-inducing activity, and both stimulated macrophage colony formation. Affinity chromatography and blocking studies with antibodies specific for M-CSF and c-fms confirmed M-CSF as the sole factor in the supernatant of the stromal cell line AC3.U that promotes stroma formation. Culture of marrow, for as little as 1 week, depleted M-CSF-dependent SIC while increasing the incidence of replatable, factor-independent SIC. This suggests that culture changes the properties of SICs, perhaps by inducing differentiation into mature stromal cells. Thus, our results show a novel function of M-CSF as an important modulator of stroma formation.

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Stromal cells play an important role in regulating early hematopoiesis. How stromal cells exert their different functions and the factors that regulate stromal cells themselves remain to be elucidated definitively, however. We describe here a limiting dilution assay for primary stroma colonies from murine marrow. This system permits a critical analysis of stromal cell function and regulation on the clonal level. We report that stroma formation was dependent on an activity secreted by the long-term cultured stromal line AC-3.U. Differential ultrafiltration of AC-3.U supernatant (SN) suggests that this potentially novel activity is represented by molecules with apparent molecular weights (m.w.) of > 100 < 300 kD and > 300 kD. In contrast to the AC-3.U activity, hydrocortisone (HC) acts as a negative regulator of stroma colony formation. We used the stroma colony assay to analyze potential stromal cell heterogeneity. We found that most, if not all, primary stromal colonies supported expansion of both myeloid and lymphoid cell lines. In contrast, long-term cultured stromal cell lines differed not only among lines, but also on the level of sublines, in their ability to sustain myeloid and lymphoid cells. This intraclonal variation suggests that the heterogeneity of cell lines can be a reflection of ongoing culture adaptation. The functional homogeneity of primary stromal colonies, together with their susceptibility to regulators, indicates that the performance of primary stroma is subject to external control. The establishment of a clonal assay system has paved the way to analyze the molecules that regulate primary stroma and thereby hematopoietic cells.

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Long-term bone marrow cultures mirror many aspects of in vivo mammalian hematopoiesis. Thus, these cultures have been used widely to analyze the complex interactions that regulate hematopoietic differentiation. Hematopoiesis in vivo and in vitro is dependent on stromal cells, a mixture of support cells. In the past years numerous clonal stromal cell lines derived from murine and human tissues have been isolated and characterized. The stromal cell lines have proved to be invaluable tools for the elucidation of the molecular and cellular signals that govern differentiation and self-renewal of hematopoietic cells. This review describes the salient features of arrow cultures with a focus on the isolation and characterization of stromal cell lines. We summarize how stromal cell lines have been crucial tools for the detection, isolation, and maintenance of rare pluripotent stem cells and B lineage cells. Intriguing questions about the nature of stromal cells, their requirements for growth and differentiation, and their histogenic origin remain areas for further investigation.

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Marker bacterial Neor gene was transduced by retroviral gene transfer into stromal precursor cells making up the hematopoietic microenvironment in murine long-term bone marrow cultures (LTBMC). Cultures were infected six times during the first 3 weeks of cultivation. At 4 weeks, the adherent cell layers (ACLs) were implanted under the renal capsule of syngeneic unirradiated and irradiated mice. Cells from newly formed ectopic foci were explanted into secondary LTBMC. ACLs containing the marker gene were detected by polymerase chain reaction. About 74% of stromal cells in ACLs contained Neor gene. The possibility of stable gene transduction into stromal precursor cells competent to transfer the hematopoietic microenvironment was established.

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Extracellular matrix (ECM) plays an important role in the regulation of hematopoiesis. The ECM obtained from murine long-term bone marrow cultures (LTBMCs) induces hematopoietic foci formation within 3 months after implantation under the murine renal capsule. The foci consist of approximately 3 x 10(6) hematopoietic cells and function for at least 11 months. The induced stroma contains transplantable precursors capable of transferring a hematopoietic microenvironment to secondary recipients, and is insensitive to the stroma-stimulating factor produced in recipient mice after irradiation. The ECM induces hematopoietic foci formation in chimeras irradiated by a dose which is lethal for most of the stromal precursors. These facts point to the differences observed between bone marrow stromal precursors and mesenchymal cells induced under the renal capsule. The foci contain bone, but its appearance is limited to early stages of foci growth, and depends on the dose of implanted ECM. Bone is not formed when the xenogeneic ECM from nonhematopoietic tissue is used as an inducer. In this case, the foci develop slowly and are observed only to the tenth month after implantation. The data obtained demonstrate a novel function of the ECM in the induction of a hematopoietic microenvironment.

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