Project description:Plasmablastic lymphoma is a high grade B cell lymphoma with plasmablastic morphology and a terminally differentiated B cell immunophenotype, usually arising in the setting of immunodeficiency and often demonstrating Epstein Barr Virus positivity. The molecular and genetic mechanisms underlying the pathogenesis of PBL are largely unknown. To better understand its pathogenesis, herein we have analyzed global gene expression of PBL and compared that to gene expression profiles of diffuse large B cell lymphoma. While overlaps in transcriptomes between these malignancies were identified, we have shown that the gene expression profile of plasmablastic lymphoma is distinct, demonstrating striking downregulation of B cell receptor signaling genes, BCL6, BCL11A SPI-B, targets of NFKB1, and upregulation of mitochondrial genes, PRMT5, MYC and MYC targets and IL21, implicating these alterations in the pathogenesis of this lymphoma. In addition we show the usefulness of SWAP-70 immunohistochemistry in the differentiation of immunoblastic diffuse large B cell lymphoma and plasmablastic lymphoma. Our findings provide justification for considering plasmablastic lymphoma as a specific lymphoma entity and provide insight into the unique transcriptional aberrations occurring in this high-grade lymphoma. Expression profiles of 15 plasmablastic lymphomas and 10 diffuse large B-cell lymphomas were obtained using Afymmetrix U133A2 microarrays.

Project description:Plasmablastic lymphoma is a high grade B cell lymphoma with plasmablastic morphology and a terminally differentiated B cell immunophenotype, usually arising in the setting of immunodeficiency and often demonstrating Epstein Barr Virus positivity. The molecular and genetic mechanisms underlying the pathogenesis of PBL are largely unknown. To better understand its pathogenesis, herein we have analyzed global gene expression of PBL and compared that to gene expression profiles of diffuse large B cell lymphoma. While overlaps in transcriptomes between these malignancies were identified, we have shown that the gene expression profile of plasmablastic lymphoma is distinct, demonstrating striking downregulation of B cell receptor signaling genes, BCL6, BCL11A SPI-B, targets of NFKB1, and upregulation of mitochondrial genes, PRMT5, MYC and MYC targets and IL21, implicating these alterations in the pathogenesis of this lymphoma. In addition we show the usefulness of SWAP-70 immunohistochemistry in the differentiation of immunoblastic diffuse large B cell lymphoma and plasmablastic lymphoma. Our findings provide justification for considering plasmablastic lymphoma as a specific lymphoma entity and provide insight into the unique transcriptional aberrations occurring in this high-grade lymphoma.

Project description:Plasmablastic lymphoma has been scarcely studied because of its rarity. Transcriptomic studies are crucial to unveil the biology of this lymphoma. In particular, miRNA expression will help to understand the lymphomagenesis of plasmablastic lymphoma. We used microarrays to depict the miRNA expression landscape of plasmablastic lymphoma and to identify miRNAs differentially expressed compared to a control group.

Project description:Cooperative JAK-STAT/MAP-kinase/MYC deregulation in Plasmablastic Lymphoma

Project description:The WWOX gene has been implicated in human cancers, including breast cancer.The development and tumorigenesis between human and mouse mammary glands (MGs) share similar molecular details and signal transduction pathways. We established mouse line that specifically knockout the expression of WWOX gene in the MG epithelial cells (MECs) by crossing BK5-cre mice with our WWOX flox stain. In order to study the gene expression profile in the subpopulation MECs, we isolated the organoids from the 4th MGs of both BK5-cre +; WWOX flox/flox (KO) mice and their WT counterparts (BK5-cre -; WWOX flox/flox), 3 mice each genotype. The total RNA from the mouse MG organoids was extracted and purified by TRIzol/RNeasy Kit and their integrity was checked on Agilent RNA 6000 Nanochip. The goal is to identify the significant perturbation in tumorigenic pathways in these cells induced by WWOX ablation. Mammary gland epithelial organoids samples and gene expression profiles were deribed from three WWOX-KO mice (BK5-cre +; WWOX flox/flox) and from three WWOX-WT mice (BK5-cre -; WWOX flox/flox)

Project description:Plasmablastic lymphoma is an aggressive B-cell lymphoma with an immunoblastic/large cell morphology anda plasmacytic differentiation. The differential diagnosis with Burkitt lymphoma, plasma cell myeloma and some variants of diffuse large B-cell lymphoma may be challenging due to the overlapping morphological, genetic and immunophenotypic features. Furthermore, the profile of chromosomal alterations is not well known.

Project description:Osteosarcoma (OS) is an aggressive bone tumor that primarily affects children and adolescents. This malignant tumor is highly aggressive, associated with poor clinical outcomes, and metastasizes mainly to the lungs. Due to its rarity and biological heterogeneity, limited studies of its molecular basis exist, thus hindering the development of effective therapies. WW domain-containing oxidoreductase (WWOX) spans one of the most active and common fragile sites that is frequently altered in human OS. The combined deletion of Wwox and Trp53 using Osterix1-Cre transgenic mice has been shown to accelerate OS development. In this study, we generated a traceable OS mouse model, SKO-Trp53 or DKO-Wwox/Trp53, expressing a tdTomato reporter. By tracking tomato expression at different time points, we detected the early presence of tdTomato-positive cells in the bone marrow (BM) mesenchymal stem cells (MSCs) of non-OS bearing mice, young BM (yBM). We found that DKO yBM cells, but not SKO yBM cells, exhibited tumorigenic traits both in vitro and in vivo. Molecular and cellular characterization of these DKO yBM cells revealed their resemblance to OS tumor cells. Interestingly, one of the observed significant transcriptomic changes in DKO yBM was the upregulation of Myc and its target genes, as compared to SKO yBM cells. Intriguingly, Myc-chromatin immunoprecipitation sequencing (ChIP-Seq) revealed increased enrichment on Myc targets, which were upregulated in DKO yBM cells. Restoration of WWOX in DKO-yBM cells reduced Myc protein levels. As a prototype target, we demonstrated upregulation of MCM7, a known Myc target, in DKO yBM relative to SKO yBM. Inhibition of MCM7 expression using Simvastatin resulted in reduced proliferation and tumor cell growth of DKO yBM cells. Our findings revealed BM-MSCs as a platform to study OS and Myc and its targets as WWOX effectors and early molecular events during osteosarcomagenesis.

Project description:Osteosarcoma (OS) is an aggressive bone tumor that primarily affects children and adolescents. This malignant tumor is highly aggressive, associated with poor clinical outcomes, and metastasizes mainly to the lungs. Due to its rarity and biological heterogeneity, limited studies of its molecular basis exist, thus hindering the development of effective therapies. WW domain-containing oxidoreductase (WWOX) spans one of the most active and common fragile sites that is frequently altered in human OS. The combined deletion of Wwox and Trp53 using Osterix1-Cre transgenic mice has been shown to accelerate OS development. In this study, we generated a traceable OS mouse model, SKO-Trp53 or DKO-Wwox/Trp53, expressing a tdTomato reporter. By tracking tomato expression at different time points, we detected the early presence of tdTomato-positive cells in the bone marrow (BM) mesenchymal stem cells (MSCs) of non-OS bearing mice, young BM (yBM). We found that DKO yBM cells, but not SKO yBM cells, exhibited tumorigenic traits both in vitro and in vivo. Molecular and cellular characterization of these DKO yBM cells revealed their resemblance to OS tumor cells. Interestingly, one of the observed significant transcriptomic changes in DKO yBM was the upregulation of Myc and its target genes, as compared to SKO yBM cells. Intriguingly, Myc-chromatin immunoprecipitation sequencing (ChIP-Seq) revealed increased enrichment on Myc targets, which were upregulated in DKO yBM cells. Restoration of WWOX in DKO-yBM cells reduced Myc protein levels. As a prototype target, we demonstrated upregulation of MCM7, a known Myc target, in DKO yBM relative to SKO yBM. Inhibition of MCM7 expression using Simvastatin resulted in reduced proliferation and tumor cell growth of DKO yBM cells. Our findings revealed BM-MSCs as a platform to study OS and Myc and its targets as WWOX effectors and early molecular events during osteosarcomagenesis.

Project description:We produced and analyzed the transcriptomic profiles of agressive plasmablastic lymphomas to describe their "immune escape" profile, depending on their viral status (HIV, EBV, ...). We used microarrays to compare the global gene expression profile between EBV+ and EBV- PL subtypes. This analysis unveiled the interest of treating EBV+ PL patients by immune checkpoint blockade strategies. Plasmablastic lymphoma (PL) is a subtype of diffuse large B-cell lymphoma occurring frequently in HIV-positive individuals and most often associated with Epstein Barr Virus infection. Despite recent therapeutic progress, PL still is an aggressive lymphoma with adverse prognosis. The aim of this study was to investigate whether the emerging strategies of immune checkpoint blockade could be efficient for PL patients. Here, we produced and analyzed the transcriptomic profiles of such tumors to address this question. Unsupervised hierarchical analysis of PL samples showed that PL segregated according to their EBV-status. Moreover, we report that EBV+ PL displayed a significant association with abundant leucocyte infiltrate and selective T-cell activation signatures, together with high level of inhibitory receptors and immune checkpoint markers. We propose that EBV infection induced an anti-viral cytotoxic immunity which progressively exhausted and promoted the tolerogenic tumor microenvironment of PL. Hence, most EBV+ PL patients presenting an early stage of cancer immune-editing process appear eligible for ICB immunotherapies.

Project description:Multiple myeloma tumors from Vk*MYC mice