Publications (4)19.81 Total impact
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Article: The process of macrophage migration promotes matrix metalloproteinase-independent invasion by tumor cells.
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ABSTRACT: Tumor-associated macrophages are known to amplify the malignant potential of tumors by secreting a variety of cytokines and proteases involved in tumor cell invasion and metastasis, but how these macrophages infiltrate tumors and whether the macrophage migration process facilitates tumor cell invasion remain poorly documented. To address these questions, we used cell spheroids of breast carcinoma SUM159PT cells as an in vitro model of solid tumors. We found that macrophages used both the mesenchymal mode requiring matrix metalloproteinases (MMPs) and the amoeboid migration mode to infiltrate tumor cell spheroids. Whereas individual SUM159PT cells invaded Matrigel using an MMP-dependent mesenchymal mode, when they were grown as spheroids, tumor cells were unable to invade the Matrigel surrounding spheroids. When spheroids were infiltrated or in contact with macrophages, tumor cell invasiveness was restored. It was dependent on the capacity of macrophages to remodel the matrix and migrate in an MMP-independent mesenchymal mode. This effect of macrophages was much reduced when spheroids were infiltrated by Matrigel migration-defective Hck(-/-) macrophages. In the presence of macrophages, SUM159PT migrated into Matrigel in the proximity of macrophages and switched from an MMP-dependent mesenchymal migration to an amoeboid mode resistant to protease inhibitors.Thus, in addition to the well-described paracrine loop between macrophages and tumor cells, macrophages can also contribute to the invasiveness of tumor cells by remodeling the extracellular matrix and by opening the way to exit the tumor and colonize the surrounding tissues in an MMP-dispensable manner.The Journal of Immunology 08/2011; 187(7):3806-14. · 5.79 Impact Factor -
Article: Three-dimensional migration of macrophages requires Hck for podosome organization and extracellular matrix proteolysis.
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ABSTRACT: Tissue infiltration of phagocytes exacerbates several human pathologies including chronic inflammations or cancers. However, the mechanisms involved in macrophage migration through interstitial tissues are poorly understood. We investigated the role of Hck, a Src-family kinase involved in the organization of matrix adhesion and degradation structures called podosomes. In Hck(-/-) mice submitted to peritonitis, we found that macrophages accumulated in interstitial tissues and barely reached the peritoneal cavity. In vitro, 3-dimensional (3D) migration and matrix degradation abilities, 2 protease-dependent properties of bone marrow-derived macrophages (BMDMs), were affected in Hck(-/-) BMDMs. These macrophages formed few and undersized podosome rosettes and, consequently, had reduced matrix proteolysis operating underneath despite normal expression and activity of matrix metalloproteases. Finally, in fibroblasts unable to infiltrate matrix, ectopic expression of Hck provided the gain-of-3D migration function, which correlated positively with formation of podosome rosettes. In conclusion, spatial organization of podosomes as large rosettes, proteolytic degradation of extracellular matrix, and 3D migration appeared to be functionally linked and regulated by Hck in macrophages. Hck, as the first protein combining a phagocyte-limited expression with a role in 3D migration, could be a target for new anti-inflammatory and antitumor molecules.Blood 11/2009; 115(7):1444-52. · 9.90 Impact Factor -
Article: The oncogenic activity of the Src family kinase Hck requires the cooperative action of the plasma membrane- and lysosome-associated isoforms.
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ABSTRACT: Hck is a phagocyte specific proto-oncogene of the Src family expressed as two isoforms, p59Hck and p61Hck. It plays a critical role in Bcr/Abl-chronic myeloid leukaemia and is able to transform fibroblasts in vitro. However, the tumourigenic activity of Hck and the respective oncogenic functions of Hck isoforms have not been examined. Tet-Off fibroblasts expressing constitutively active mutants of p59Hck and p61Hck together or individually were used. In contrast to cells expressing p59Hck(ca) or p61Hck(ca) alone, cells expressing both isoforms were transformed in vitro and induced tumour formation in 90% of nude mice within 2 weeks. This is the first demonstration of (i) the tumourigenic activity of Hck in mice, (ii) the cooperative action of the two Hck isoforms in vitro and in vivo. To our knowledge, this is the first example of a transforming activity 'split' in two requisite isoforms.European journal of cancer (Oxford, England: 1990) 01/2009; 45(3):321-7. · 4.12 Impact Factor -
Article: In vivo major histocompatibility complex class I (MHCI) expression on MHCIlow tumor cells is regulated by gammadelta T and NK cells during the early steps of tumor growth.
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ABSTRACT: Cell surface expression of MHC class I molecules by tumor cells is determinant in the interplay between tumor cells and the immune system. Nevertheless, the mechanisms which regulate MHCI expression on tumor cells are not clear. We previously showed that immune innate cells from the spleen can regulate MHCI expression on MHCI(low) tumor cells. Here, using the murine model of B16 melanoma, we demonstrate that the MHCI status of tumor cells in vivo is regulated by the microenvironment. In subcutaneous grafts, induction of MHCI molecules on tumor cells is concomitant to the recruitment of lymphocytes and relies on an IFNgamma-mediated mechanism. gammadelta T and NK cells are essential to this regulation. A small proportion of tumor-infiltrating NK cells and gammadelta T cells were found to produce IFNgamma, suggesting a possible direct participation to the MHCI increase on the tumor cells upon tumor cell recognition. Depletion of gammadelta T cells increases the tumor growth rate, confirming their anti-tumoral role in our model. Taken together, our results demonstrate that in vivo, NK and gammadelta T cells play a dual role during the early growth of MHCI(low) tumor cells. In addition to controlling the growth of tumor cells, they contribute to modifying the immunogenic profile of residual tumor cells.Cancer immunity: a journal of the Academy of Cancer Immunology 01/2009; 9:10.
