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ABSTRACT: Epithelial to mesenchymal transition (EMT) has become one of the most exciting fields in cancer biology. While its role in cancer cell invasion, metastasis and drug resistance is well established, the molecular basis of EMT-induced immune escape remains unknown. We recently reported that EMT coordinately regulates target cell recognition and sensitivity to specific lysis. In addition to the well-characterized role for EMT in tumor phenotypic change including a tumor-initiating cell phenotype, we provided evidence indicating that EMT-induced tumor cell resistance to cytotoxic T-lymphocytes (CTLs) also correlates with autophagy induction. Silencing of BECN1 in target cells that have gone through the EMT restored CTL susceptibility to CTL-induced lysis. Although EMT may represent a critical target for the development of novel immunotherapy approaches, a more detailed understanding of the interrelationship between EMT and autophagy and their reciprocal regulation will be a key determinant in the rational approach to future tumor immunotherapy design.
Autophagy 04/2013; 9(7). · 7.45 Impact Factor
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Intissar Akalay,
Bassam Janji, Meriem Hasmim,
Muhammad Zaeem Noman,
Fabrice Andre,
Patricia De Cremoux,
Philippe Bertheau,
Cecile Badoual,
Philippe Vielh,
Annette K Larsen,
Michele Sabbah,
Tuan Zea Tan,
Joan Herr Keira,
Nicole Tsang Ying Hung,
Jean Paul Thiery,
Fathia Mami-Chouaib,
Salem Chouaib
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ABSTRACT: Epithelial-to-mesenchymal transition (EMT) mediates cancer cell invasion, metastasis and drug resistance, but its impact on immune surveillance has not been explored. In this study, we investigated the functional consequences of this mode of epithelial cell plasticity on targeted cell lysis by cytotoxic T lymphocytes (CTL). Acquisition of the EMT phenotype in various derivatives of MCF-7 human breast cancer cells was associated with dramatic morphological changes and actin cytoskeleton remodeling, with CD24-/CD44+/ALDH+ stem cell populations present exhibiting a higher degree of EMT relative to parental cells. Strikingly, acquisition of this phenotype also associated with a blockade to CTL-mediated tumor cell lysis. Resistant cells exhibited an attenuation in the formation of an immunological synapse with CTL along with induction of autophagy in the target cells. This response was critical for susceptibility to CTL-mediated lysis, because siRNA-mediated silencing of Beclin1 to inhibit autophagy in target cells restored their susceptibility to CTL-induced lysis. Our results argue that in addition to promoting invasion and metastasis EMT also profoundly alters the susceptibility of cancer cells to T cell-mediated immune surveillance. Further, they reveal EMT and autophagy as conceptual realms for immunotherapeutic strategies to block immune escape.
Cancer Research 02/2013; · 7.86 Impact Factor
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Jane Muret, Meriem Hasmim,
Izabela Stasik,
Abdelali Jalil,
Aude Mallavialle,
Arash Nanbakhsh,
Ludovic Lacroix,
Katy Billot,
Véronique Baud,
Jérome Thiery,
Philippe Vielh,
Philippe Terrier,
Joelle Wiels,
Lyubomir Vassilev,
Axel Lecesne,
Sylvie Bonvalot,
Salem Chouaib
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ABSTRACT: Isolated limb perfusion with TNF-α and melphalan is used with remarkable efficiency to treat unresectable limb sarcomas. Here we tested the ability of TNF-α to directly induce apoptosis of sarcoma cells. In addition, we investigated the impact of p53 in the regulation of such effect.
We first analysed the ability of TNF-α to induce apoptosis in freshly isolated tumour cells. For this purpose, sarcoma tumours (n = 8) treated ex vivo with TNF-α were processed for TUNEL staining. It revealed substantial endothelial cell apoptosis and levels of tumour cell apoptosis that varied from low to high. In order to investigate the role of p53 in TNF-α-induced cell death, human sarcoma cell lines (n = 9) with different TP53 and MDM2 status were studied for their sensitivity to TNF-α. TP53(Wt) cell lines were sensitive to TNF-α unless MDM2 was over-expressed. However, TP53(Mut) and TP53(Null) cell lines were resistant. TP53 suppression in TP53(Wt) cell lines abrogated TNF-α sensitivity and TP53 overexpression in TP53(Null) cell lines restored it. The use of small molecules that restore p53 activity, such as CP-31398 or Nutlin-3a, in association with TNF-α, potentiated the cell death of respectively TP53(Mut) and TP53(Wt)/MDM2(Ampl). In particular, CP-31398 was able to induce p53 as well as some of its apoptotic target genes in TP53(Mut) cells. In TP53(Wt)/MDM2(Ampl) cells, Nutlin-3a effects were associated with a decrease of TNF-α-induced NF-κB-DNA binding and correlated with a differential regulation of pro- and anti-apoptotic genes such as TP53BP2, GADD45, TGF-β1 and FAIM.
More effective therapeutic approaches are critically needed for the treatment of unresectable limb sarcomas. Our results show that restoring p53 activity in sarcoma cells correlated with increased sensitivity to TNF-α, suggesting that this strategy may be an important determinant of TNF-α-based sarcomas treatment.
PLoS ONE 01/2012; 7(6):e38808. · 4.09 Impact Factor
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ABSTRACT: Despite the impressive progress over the past decade, in the field of tumor immunology, such as the identification of tumor antigens and antigenic peptides, there are still many obstacles in eliciting an effective immune response to eradicate cancer. It has become increasingly clear that tumor microenvironment plays a crucial role in the control of immune protection. Tumors have evolved to utilize hypoxic stress to their own advantage by activating key biochemical and cellular pathways that are important in progression, survival, and metastasis. Hypoxia-inducible factor (HIF-1) and vascular endothelial growth factor (VEGF) play a determinant role in promoting tumor cell growth and survival. Hypoxia contributes to immune suppression by activating HIF-1 and VEGF pathways. Accumulating evidence suggests a link between hypoxia and tumor tolerance to immune surveillance through the recruitment of regulatory cells (regulatory T cells and myeloid derived suppressor cells). In this regard, hypoxia (HIF-1α and VEGF) is emerging as an attractive target for cancer therapy. How the microenvironmental hypoxia poses both obstacles and opportunities for new therapeutic immune interventions will be discussed.
Frontiers in immunology. 01/2012; 3:21.
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ABSTRACT: Hypoxia is a major feature of the solid tumor microenvironment and is known to be associated with tumor progression and poor clinical outcome. Recently, we reported that hypoxia protects human non-small cell lung tumor cells from specific lysis by stabilizing hypoxia-inducible factor-1α and inducing STAT3 phosphorylation. In this study, we show that NANOG, a transcription factor associated with stem cell self renewal, is a new mediator of hypoxia-induced resistance to specific lysis. Our data indicate that under hypoxic conditions, NANOG is induced at both transcriptional and translational levels. Knockdown of the NANOG gene in hypoxic tumor cells is able to significantly attenuate hypoxia-induced tumor resistance to CTL-dependent killing. Such knockdown correlates with an increase of target cell death and an inhibition of hypoxia-induced delay of DNA replication in these cells. Interestingly, NANOG depletion results in inhibition of STAT3 phosphorylation and nuclear translocation. To our knowledge, this study is the first to show that hypoxia-induced NANOG plays a critical role in tumor cell response to hypoxia and promotes tumor cell resistance to Ag-specific lysis.
The Journal of Immunology 09/2011; 187(8):4031-9. · 5.79 Impact Factor
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ABSTRACT: The tumor microenvironment is a complex system playing an important role in tumor development and progression. Besides tumor cells, the tumor microenvironment harbours a variety of host-derived cells, such as endothelial cells, fibroblasts, innate and adaptive immune cells, as well as extracellular matrix (ECM) fibers, cytokines, and other mediators. This review discusses the potential role of hypoxia and endothelial cells within tumor microenvironment and emphasizes their interaction with antigen specific killer cells.
Bulletin du cancer 02/2011; 98(2):E19-24. · 0.67 Impact Factor
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ABSTRACT: Hypoxia, a common feature of solid tumors and one of the hallmarks of tumor microenvironment, favors tumor survival and progression. Although hypoxia has been reported to play a major role in the acquisition of tumor resistance to cell death, the molecular mechanisms that control the survival of hypoxic cancer cells and the role of hypoxic stress in shaping the cross talk between immune cells and stroma components are not fully elucidated. Recently, several lines of investigation are pointing to yet another ominous outcome of hypoxia in the tumor microenvironment involving suppression of antitumor immune effector cells and enhancement of tumor escape from immune surveillance. Although the identification of tumor-associated antigens provided a new arsenal of approaches to enhance antigen-specific response, the immunotherapy approaches that are currently used in the clinic have only limited success. In fact, tumor stroma components including hypoxia are engaged in an active molecular cross talk that has serious implications for immunological recognition of tumor in shaping the microenvironment. In this review, we will focus on the impact of hypoxia on the regulation of the antitumor response and the subsequent tumor progression. We will also in particular discuss data that indicate that manipulation of hypoxic stress may represent an innovative strategy for a better immunotherapy of cancer.
Critical Reviews in Immunology 01/2011; 31(5):357-77. · 3.32 Impact Factor
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Yosra Messai,
Muhammad Zaeem Noman,
Amine Derouiche,
Nadia Kourda,
Intissar Akalay, Meriem Hasmim,
Izabela Stasik,
Sarra Ben Jilani,
Mohamed Chebil,
Anne Caignard,
Bruno Azzarone,
Asma Gati,
Amel Ben Ammar Elgaaied,
Salem Chouaib
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ABSTRACT: Renal cell carcinoma (RCC) is the most common type of kidney cancer and recent developments in the molecular biology of RCC have identified multiple pathways associated with the development of this cancer. This study aimed at analyzing the expression pattern of cytokeratin 18 (CK18) in RCC patients and its prognostic relevance. We quantified CK18 mRNA expression and protein using real-time reverse transcription quantitative polymerase chain reaction (RT-QPCR) and immunohistochemistry, respectively, in paired tumor and non-tumor samples from 42 patients. Our data indicate that CK18 mRNA and proteins levels increased with advanced stage and grade of the disease. Using primary (RCC5) and metastatic renal cell carcinoma (RCC5 met) cell lines, we demonstrated that CK18 expression was 5-fold higher in the metastatic as compared to the primary RCC cell line and correlated with a migratory phenotype characterized by a distinct elongated morphology as revealed by Phalloidin staining. In addition, RCC5 met cells displayed an increased capacity to attach to fibronectin and collagen which was lost following CK18 knock-down. Our data also indicate that the expression of CK18 was associated with increased Snail expression which correlated positively with advanced disease in RCC patients. The present findings suggest that CK18 may play an important role in the progression of RCC and it may be used as a new predictor for RCC.
International Journal of Oncology 05/2010; 36(5):1145-54. · 2.40 Impact Factor
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Houssem Benlalam,
Abdelali Jalil, Meriem Hasmim,
Baoxu Pang,
Ryad Tamouza,
Michèle Mitterrand,
Yann Godet,
Nathalie Lamerant,
Caroline Robert,
Marie-Françoise Avril,
Jacques Neefjes,
Thomas Tursz,
Fathia Mami-Chouaib,
Claudine Kieda,
Salem Chouaib
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ABSTRACT: Cellular interactions in the tumor stroma play a major role in cancer progression but can also induce tumor rejection. To explore the role of endothelial cells in these interactions, we used an in vitro three-dimensional collagen matrix model containing a cytotoxic T lymphocyte CTL clone (M4.48), autologous tumor cells (M4T), and an endothelial cell (M4E) line that are all derived from the same tumor. We demonstrate in this study that specific killing of the endothelial cells by the CTL clone required the autologous tumor cells and involved Ag cross-presentation. The formation of gap junctions between endothelial and tumor cells is required for antigenic peptide transfer to endothelial cells that are then recognized and eliminated by CTL. Our results indicate that gap junctions facilitate an effective CTL-mediated destruction of endothelial cells from the tumor microenvironment that may contribute to the control of tumor progression.
The Journal of Immunology 04/2009; 182(5):2654-64. · 5.79 Impact Factor
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Muhammad Zaeem Noman,
Stéphanie Buart,
Jos Van Pelt,
Catherine Richon, Meriem Hasmim,
Nathalie Leleu,
Wictoria Maria Suchorska,
Abdelali Jalil,
Yann Lecluse,
Faten El Hage,
Massimo Giuliani,
Christophe Pichon,
Bruno Azzarone,
Nathalie Mazure,
Pedro Romero,
Fathia Mami-Chouaib,
Salem Chouaib
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ABSTRACT: Hypoxia is an essential component of tumor microenvironment. In this study, we investigated the influence of hypoxia (1% PO(2)) on CTL-mediated tumor cell lysis. We demonstrate that exposure of target tumor cells to hypoxia has an inhibitory effect on the CTL clone (Heu171)-induced autologous target cell lysis. Such inhibition correlates with hypoxia-inducible factor-1alpha (HIF-1alpha) induction but is not associated with an alteration of CTL reactivity as revealed by granzyme B polarization or morphological change. Western blot analysis indicates that although hypoxia had no effect on p53 accumulation, it induced the phosphorylation of STAT3 in tumor cells by a mechanism at least in part involving vascular endothelial growth factor secretion. We additionally show that a simultaneous nuclear translocation of HIF-1alpha and phospho-STAT3 was observed. Interestingly, gene silencing of STAT3 by small interfering RNA resulted in HIF-1alpha inhibition and a significant restoration of target cell susceptibility to CTL-induced killing under hypoxic conditions by a mechanism involving at least in part down-regulation of AKT phosphorylation. Moreover, knockdown of HIF-1alpha resulted in the restoration of target cell lysis under hypoxic conditions. This was further supported by DNA microarray analysis where STAT3 inhibition resulted in a partly reversal of the hypoxia-induced gene expression profile. The present study demonstrates that the concomitant hypoxic induction of phospho-STAT3 and HIF-1alpha are functionally linked to the alteration of non-small cell lung carcinoma target susceptibility to CTL-mediated killing. Considering the eminent functions of STAT3 and HIF-1alpha in the tumor microenvironment, their targeting may represent novel strategies for immunotherapeutic intervention.
The Journal of Immunology 04/2009; 182(6):3510-21. · 5.79 Impact Factor
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ABSTRACT: Mice with mutations in the gene encoding Fas ligand (FasL) develop lymphoproliferation and systemic autoimmune diseases. However, the cellular subset responsible for the prevention of autoimmunity in FasL-deficient mice remains undetermined. Here, we show that mice with FasL loss on either B or T cells had identical life span as littermates, and both genotypes developed signs of autoimmunity. In addition, we show that T cell-dependent death was vital for the elimination of aberrant T cells and for controlling the numbers of B cells and dendritic cells that dampen autoimmune responses. Furthermore, we show that the loss of FasL on T cells affected the follicular dentritic cell network in the germinal centers, leading to an impaired recall response to exogenous antigen. These results disclose the distinct roles of cellular subsets in FasL-dependent control of autoimmunity and provide further insight into the role of FasL in humoral immunity.
Immunity 12/2008; 29(6):922-33. · 21.64 Impact Factor
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ABSTRACT: Tumor cells evade adaptive immunity by a variety of mechanisms, including selection of variants that are resistant to specific cytotoxic T lymphocyte (CTL) pressure. Recently, we have reported that the reorganization of the actin cytoskeleton can be used by tumor cells as a strategy to promote their resistance to CTL-mediated lysis. In this study, we further examined the functional features of a CTL-resistant tumor variant and investigated the relationship between cytoskeleton alteration, the acquisition of tumor resistance to CTL-induced cell death, Rho-GTPases, and focal adhesion kinase (FAK) pathways. Our data indicate that although the resistant cells do not display an increased migratory potential, an alteration of adhesion to the extracellular matrix was observed. When Rho-GTPases were activated in cells by the bacterial CNF1 (cytotoxic necrotizing factor 1), striking changes in the cell morphology, including actin cytoskeleton, focal adhesions, and membrane extensions, were observed. More importantly, such activation also resulted in a significant attenuation of resistance to CTL-induced cell death. Furthermore, we demonstrate that FAK signaling pathways were constitutively defective in the resistant cells. Silencing of FAK in the sensitive target cells resulted in the inhibition of immune synapse formation with specific CTLs and their subsequent lysis. Expression of the FAK mutant (Y397F) resulted in an inhibition of IGR-Heu cell adhesion and of their susceptibility to specific lysis. These results suggest that FAK activation plays a role in the control of tumor cell susceptibility to CTL-mediated lysis.
Journal of Biological Chemistry 10/2008; 283(46):31665-72. · 4.77 Impact Factor
