Tumour Survival Signals and Epigenetic Gene Silencing in Multiple Myeloma : Implications for Biology and Therapy

Fristedt Duvefelt, Charlotte

January 2015

This thesis is focused on multiple myeloma (MM), a haematological malignancy that still remains incurable. The pathogenesis of MM is not fully understood and there is a large intra-tumour and interclonal genetic variation in MM patients. One of the most challenging areas in MM research is to find mechanisms for initiation and progression of MM, but also to overcome the arising resistance to therapy. In paper I, a signature of under-expressed genes in MM was found to significantly correlate with already defined Polycomb target genes. In selected genes from the profile we found an enrichment of H3K27me3, a repressive mark catalysed by Polycomb repressive complex 2 (PRC2), in MM patients and MM cell lines. Treatment with LBH589 (HDAC inhibitor) and DZNep (methyltransferase inhibitor) reactivated the H3K27me3 target genes and induced apoptosis in MM cell lines. LBH589 reduced tumour load and increased overall survival in the 5T33MM mice. These results suggest an important role for Polycomb complex in MM development and highlight PRC2 as a drug target in MM. In paper II, the insulin-like growth factor type 1 receptor tyrosine kinase (IGF-1RTK) inhibitor picropodophyllin (PPP) in combination with LBH589 synergistically inhibited cell proliferation and enhanced the apoptotic effect in MM. Since the bone marrow microenvironment has an important role in MM disease and also contributes to drug-resistance, we therefore evaluated the drug combination in the immunocompetent 5T33MM murine model. The drug combination significantly prolonged the survival of the 5T33MM mice compared to single drug treatment. We conclude that the combination of PPP and LBH589 has a therapeutic potential in MM. In paper III, the role of the cellular inhibitor of apoptosis protein 2 (cIAP2) was evaluated in MM cells harbouring TRAF3 deletion/mutation. By overexpressing cIAP2 in these cells we found an increased resistance to proteasome inhibitors. cIAP2 over-expression by lentiviral constructs led to decreased caspase activation, activation of the canonical NF-κB pathway, and down-regulation of tumour suppressor genes and genes that contribute to apoptosis. Supporting the role of cIAP2 mediated drug-resistance, we here demonstrate that inhibiting cIAP2 using an IAP antagonist, increased the sensitivity to the proteasome inhibitor, bortezomib.

Multiple myeloma

Polycomb

apoptosis

cIAP2

IAP-inbibitors

proteasome inhibitors

LBH589

PPP

DZNep

Étude du gène HACE1 dans les lymphomes B / Study of the HACE1 gene in B lymphomas

Bouzelfen, Abdelilah

09 January 2017

Plusieurs lymphomes à cellules B présentent des anomalies génétiques qui sont importantes pour déterminer leurs caractéristiques biologiques et peuvent être utiles pour le diagnostic. Les types les plus courants sont le lymphome folliculaire et le lymphome diffus à grandes cellules B (LDGCB), qui représentent à eux deux plus de 60 % de tous les lymphomes. Les LDGCB sont agressifs mais peuvent être traités par chimiothérapie à agents multiples. Cependant, les gènes suppresseurs de tumeur (GST) potentiellement responsables de la lymphomagenèse ne sont pas tous connus. Le rationnel de ce projet reposait sur des données non publiées du projet translationnel GHEDI (déchiffrer l'hétérogénéité génétique du lymphome diffus à grandes cellules B à l'ère du rituximab). Une hybridation génomique comparative (CGH) (puce Agilent 180 K) a été réalisée sur une série de 202 LDGCB de la série GHEDI et 40 % des délétions de la région 6q21 ont été identifiées, dont la région minimale commune délétée qui contient le gène HACE1. Par ailleurs, l'analyse transcriptomique a montré une corrélation significative entre le nombre de copies du gène et le niveau d'expression. Le gène HACE1, situé sur le chromosome 6q, code pour une ubiquitine ligase E3 et est régulé négativement chez l'homme dans les tumeurs, y compris les neuroblastomes et les lymphomes à cellules tueuses naturelles (NK). Il a été montré que le gène HACE1 ubiquityle Rac1, une protéine impliquée dans la prolifération cellulaire et la progression G2/M du cycle cellulaire. La fonction du gène HACE1 et les facteurs impliqués dans sa régulation transcriptionnelle sont en grande partie inconnus dans le contexte des lymphomes à cellules B. Dans cette étude, nous avons examiné si le gène HACE1 était un gène candidat dans la région génomique 6q impliqué dans la lymphomagenèse des LDGCB et plus largement dans les lymphomes B. Nous avons déterminé la fréquence de l'inactivation du gène HACE1 dans le lymphome à cellules B et analysé les mécanismes impliqués dans son extinction. / Several B-cell lymphomas have characteristic genetic abnormalities that are important in determining their biologic features and can be useful in differential diagnosis. Historically, classical Hodgkin lymphomas have been distinguished from non-Hodgkin lymphomas (NHL). The most common types are follicular lymphoma and diffuse large B-cell lymphoma (DLBCL), which together make up more than 60% of all lymphomas. DBCL are aggressive but potentially curable with multi-agent chemotherapy. However the putative tumor suppressor genes (TSG) responsible for lymphomagenesis still remain unknown. The rational of this project was based on unpublished data from the translational project GHEDI (Deciphering the Genetic Heterogeneity of Diffuse large B-cell lymphoma in the rituximab era). Array comparative genomic hybridization (aCGH) (Agilent 180 K) was performed in a series of 202 DLBCL and found 40% of deletions of 6q21 region, whose minimal commune deleted region (MCR) contains HACE1 gene. Furthermore, transcriptomic analysis showed a significant correlation between gene copy number and expression level. HACE1, located on chromosome 6q, encodes an E3 ubiquitin ligase and is downregulated in human tumors such as neuroblastomas and natural killer (NK) lymphomas. HACE1 has been shown to ubiquitylate Rac1, a protein involved in cell proliferation and G2/M cell cycle progression. The function of HACE1 and the factors involved in its transcriptional regulation are largely unknown in the context of B-cell lymphomas. In this study, we investigated whether HACE1 is a candidate gene in the 6q genomic region involved in DLBCL lymphomagenesis. We determined the frequency of HACE1 inactivation in B-cell lymphoma and analyzed the mechanisms involved in its silencing. We show, by RT-qPCR, that HACE1 gene is constitutively expressed in normal lymph nodes and in normal B-cells isolated from peripheral blood, contrasting with a strong downregulation of its expression in more than 70% (77/111) of B-cell lymphoma cases and in four tested B-Lymphoma cell lines. HACE1 gene copy number was assessed by quantitative multiplex PCR of short fluorescent fragments (QMPSF) and array for comparative genomic hybridization (aCGH) in 91 DLBCL cases.

Oncologie

HACE1

Hématologie

Génétique

Épigénétique

Lymphomes B

Gène suppresseur de tumeur

B-cell lymphomas

Transcriptional regulation

HACE1

Deletions

Epigenetic mechanisms

HDAC inhibitors

DZNep inhibitors

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