Cis-regulatory elements of the IgH locus and B cell lymphomagenesis

Le locus des chaînes lourdes d’immunoglobulines (IgH) subit trois processus de remaniements géniques durant la lymphopoïèse B. Ces événements induisent des cassures de l’ADN potentiellement oncogéniques, d’où la nécessité d’une régulation extrêmement stricte. Ceci est dû aux deux principaux éléments cis-régulateurs du locus IgH. L’enhancer 5’Eµ régule les recombinaisons VHDJH qui établissent un répertoire antigénique fonctionnel lors des phases précoces. La région régulatrice en 3’ (3’RR) est essentielle aux hypermutations somatiques (SHM) et à la recombinaison de classe (CSR) aux stades tardifs, modifiant respectivement, l’affinité et les fonctions effectrices de l’Ig. La plupart des lymphomes B matures portent les stigmates de translocations d’oncogènes au locus IgH. Le but de ma thèse a été de mieux comprendre les interactions transcriptionelles entre les enhancers Eµ et 3’RR et évaluer si le ciblage de cette dernière pourrait se révéler une approche thérapeutique potentielle. Nous avons démontré que la 3’RR est l’élément essentiel qui contrôle la transcription du locus IgH dans les lymphocytes B matures. Elle est dispensable lors des phases initiales (recombinaisons VHDJH), mais agit comme silencer sur l’expression des segments DJH. L’analyse de la lymphomagenèse dans trois modèles murins porteurs d’une insertion de Myc en trois points du locus IgH a montré des différences dans les cinétiques d’émergence des lymphomes, leurs phénotypes et index de prolifération. L’effet de la 3’RR sur l’oncogène est suffisant pour l’émergence de lymphomes B. Son absence ne semble pas être préjudiciable au développement de réactions inflammatoires/immunes. Son ciblage pourrait donc se révéler une approche thérapeutique intéressante pour diminuer son activité transcriptionelle sur l’oncogène transloqué. Un rôle potentiel des inhibiteurs des histones désacétylases est à l’étude.The immunoglobulin heavy chain locus (IgH) undergoes several changes along B-cell differentiation. VHDJH recombinations during the early stages give the diversity of the antigenic repertoire. Somatic hypermutation (SHM) and class switch recombination (CSR) during late stages allow affinity maturation and the acquisition of new effectors functions. These rearrangements are highly regulated and are under the control of the IgH locus cis-regulatory elements. The 5’ Eµ enhancer is important for VHDJH recombination. The 3’ regulatory region (3’ RR) is essential for both CSR and SHM. These events induce breaks into the IgH locus, making it a hotspot for oncogenic translocations. The aim of my thesis was to understand the transcriptional interactions between Eμ and 3'RR enhancers and to evaluate whether the targeting of the latter could be of a potential therapeutic approach. We have demonstrated that 3'RR is essential to control IgH transcription in mature B cells. It is dispensable during the initial stages of developement (VHDJH recombinations). At the pro-B cell stage, it has a silencer effect rather than a transcriptional one on the DJH segments expression. The analysis of lymphomagenesis in three mice models carrying an insertion of Myc in different locations at the IgH locus showed significant differences in lymphoma kinetics, phenotypes and proliferation index. 3'RR alone, as a major transcriptional activator of the IgH locus, is capable of leading to B-cell lymphomas. Its absence is not detrimental for the development of classical inflammatory/immune reactions. Its targeting may be of a potentially interesting therapeutic approach to decrease its transcriptional activity on the translocated oncogene. A potential role for histone deacetylase inhibitors is under study

Eléments cis-régulateurs du locus IgH et lymphomagenèse B

The immunoglobulin heavy chain locus (IgH) undergoes several changes along B-cell differentiation. VHDJH recombinations during the early stages give the diversity of the antigenic repertoire. Somatic hypermutation (SHM) and class switch recombination (CSR) during late stages allow affinity maturation and the acquisition of new effectors functions. These rearrangements are highly regulated and are under the control of the IgH locus cis-regulatory elements. The 5’ Eµ enhancer is important for VHDJH recombination. The 3’ regulatory region (3’ RR) is essential for both CSR and SHM. These events induce breaks into the IgH locus, making it a hotspot for oncogenic translocations. The aim of my thesis was to understand the transcriptional interactions between Eμ and 3'RR enhancers and to evaluate whether the targeting of the latter could be of a potential therapeutic approach. We have demonstrated that 3'RR is essential to control IgH transcription in mature B cells. It is dispensable during the initial stages of developement (VHDJH recombinations). At the pro-B cell stage, it has a silencer effect rather than a transcriptional one on the DJH segments expression. The analysis of lymphomagenesis in three mice models carrying an insertion of Myc in different locations at the IgH locus showed significant differences in lymphoma kinetics, phenotypes and proliferation index. 3'RR alone, as a major transcriptional activator of the IgH locus, is capable of leading to B-cell lymphomas. Its absence is not detrimental for the development of classical inflammatory/immune reactions. Its targeting may be of a potentially interesting therapeutic approach to decrease its transcriptional activity on the translocated oncogene. A potential role for histone deacetylase inhibitors is under study.Le locus des chaînes lourdes d’immunoglobulines (IgH) subit trois processus de remaniements géniques durant la lymphopoïèse B. Ces événements induisent des cassures de l’ADN potentiellement oncogéniques, d’où la nécessité d’une régulation extrêmement stricte. Ceci est dû aux deux principaux éléments cis-régulateurs du locus IgH. L’enhancer 5’Eµ régule les recombinaisons VHDJH qui établissent un répertoire antigénique fonctionnel lors des phases précoces. La région régulatrice en 3’ (3’RR) est essentielle aux hypermutations somatiques (SHM) et à la recombinaison de classe (CSR) aux stades tardifs, modifiant respectivement, l’affinité et les fonctions effectrices de l’Ig. La plupart des lymphomes B matures portent les stigmates de translocations d’oncogènes au locus IgH. Le but de ma thèse a été de mieux comprendre les interactions transcriptionelles entre les enhancers Eµ et 3’RR et évaluer si le ciblage de cette dernière pourrait se révéler une approche thérapeutique potentielle. Nous avons démontré que la 3’RR est l’élément essentiel qui contrôle la transcription du locus IgH dans les lymphocytes B matures. Elle est dispensable lors des phases initiales (recombinaisons VHDJH), mais agit comme silencer sur l’expression des segments DJH. L’analyse de la lymphomagenèse dans trois modèles murins porteurs d’une insertion de Myc en trois points du locus IgH a montré des différences dans les cinétiques d’émergence des lymphomes, leurs phénotypes et index de prolifération. L’effet de la 3’RR sur l’oncogène est suffisant pour l’émergence de lymphomes B. Son absence ne semble pas être préjudiciable au développement de réactions inflammatoires/immunes. Son ciblage pourrait donc se révéler une approche thérapeutique intéressante pour diminuer son activité transcriptionelle sur l’oncogène transloqué. Un rôle potentiel des inhibiteurs des histones désacétylases est à l’étude

L’énigmatique recombinaison isotypique vers les IgD

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3’RR

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Éléments

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Efficient role of IgH 3' regulatory region deficient B-cells in the development of oil granulomas

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IgD class switch recombination is not controlled through the immunoglobulin heavy chain 3′ regulatory region super-enhancer

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The immunoglobulin heavy chain 3' regulatory region superenhancer controls mouse B1 B-cell fate and late VDJ repertoire diversity

International audienceThe immunoglobulin heavy chain (IgH) 3' regulatory region (3'RR) superenhancer controls B2 B-cell IgH transcription and cell fate at the mature stage but not early repertoire diversity. B1 B cells represent a small percentage of total B cells differing from B2 B cells by several points such as precursors, development, functions, and regulation. B1 B cells act at the steady state to maintain homeostasis in the organism and during the earliest phases of an immune response, setting them at the interface between innate and acquired immunity. We investigated the role of the 3'RR superenhancer on B1 B-cell fate. Similar to B2 B cells, the 3'RR controls mu transcription and cell fate in B1 B cells. In contrast to B2 B cells, 3'RR deletion affects B1 B-cell late repertoire diversity. Thus, differences exist for B1 and B2 B-cell 3'RR control during B-cell maturation. For the first time, these results highlight the contribution of the 3'RR superenhancer at this interface between innate and acquired immunity

The IgH 3 ' regulatory region super-enhancer does not control IgA class switch recombination in the B1 lineage

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Eμ and 3'RR IgH enhancers show hierarchic unilateral dependence in mature B-cells

International audienceEnhancer and super-enhancers are master regulators of cell fate. While they act at long-distances on adjacent genes, it is unclear whether they also act on one another. The immunoglobulin heavy chain (IgH) locus is unique in carrying two super-enhancers at both ends of the constant gene cluster: the 5'Eμ super-enhancer promotes VDJ recombination during the earliest steps of B-cell ontogeny while the 3' regulatory region (3'RR) is essential for late differentiation. Since they carry functional synergies in mature B-cells and physically interact during IgH locus DNA looping, we investigated if they were independent engines of locus remodelling or if their function was more intimately intermingled, their optimal activation then requiring physical contact with each other. Analysis of chromatin marks, enhancer RNA transcription and accessibility in Eμ- and 3'RR-deficient mice show, in mature activated B-cells, an unilateral dependence of this pair of enhancers: while the 3'RR acts in autonomy, Eμ in contrast likely falls under control of the 3'RR