Abstract
Abstract We have reported that super-enhancers (SEs) are specifically hypermutated by Activation-Induced Deaminase (AID)-induced Aberrant Somatic Hypermutation in >90% of diffuse large B cell lymphoma (DLBCL) cases (Bal et al. Nature 2022). Analysis of 122 primary DLBCL biopsies and cell lines identified more than 80 SEs that are recurrently hypermutated, with an average of 12 hypermutated SE/case. Hypermutated SEs are predominantly linked to genes encoding regulators of B cell development and well-known lymphoma oncogenes, including BCL6, BCL2 and CXCR4. We showed that specific hotspot mutations prevent binding and transcriptional downregulation by transcriptional repressors leading to target gene dysregulation. Among these, hypermutation of the SEs linked to BCL2 and CXCR4 abrogates the binding of the glucocorticoid receptor (GR)/transcription factor encoded by NR3C1. As a result, BCL2 and CXCR4 escape GR-mediated transcriptional repression leading to their de-regulated expression in germinal center (GC) B cells. Together with the observation that the NR3C1 gene is genetically inactivated in a small fraction of DLBCL, and the relevance of glucocorticoid-based therapy in DLBCL, these results prompted a comprehensive analysis of the role of GR in normal and malignant B cells. We report that GR is detectable in the nucleus of the great majority of GC B cells, suggesting that it is active as a transcription factor. Similarly, DLBCL primary cases (including GCB-, ABC- and unclassified DLBCL) display GR nuclear expression. Analysis of a conditional GC-specific Nr3c1 knock-out (KO) mouse model showed that GC B cells form normally in the absence of Nr3c1. However, the transcriptional profile of Nr3c1-KO GC B cells was significantly altered compared to wild-type cells. By integrating the GR binding profile obtained in normal human GC B cells with the transcripts differentially expressed in Nr3c1-KO GC B cells, we identified a set of about 2,000 genes that are directly modulated by GR during the GC reaction. Pathway enrichment analysis showed that GR controls several signaling pathways, suggesting a modulatory role on the BCR and CXCR4 pathways. In addition, GR targets display a significant overlap with the BCL6 transcriptional network, suggesting a cooperative role in GC B cell development. Notably, GR was shown to regulate pathways involved in plasma cell differentiation, while repressing targets associated with memory B cell development. In DLBCL cases, several NR3C1 binding sites are recurrently targeted by mutations, suggesting that genetic impairment of GR activity is heterogeneous and extends beyond CXCR4 and BCL2. Together, these data support a role for the glucocorticoid pathway in GC physiology. Recurrent inactivation of the NR3C1 gene or part of its transcriptional regulatory program may contribute to DLBCL pathogenesis, with implications for presently unknown specific roles of glucocorticoids in the therapeutic regimens for DLBCL. Citation Format: Clarissa Corinaldesi, Antony B Holmes, Elodie Bal, Laura Pasqualucci, Katia Basso, Riccardo Dalla-Favera. Role of glucocorticoid receptor in normal and malignant germinal center B cells [abstract]. In: Proceedings of the Blood Cancer Discovery Symposium; 2024 Mar 4-6; Boston, MA. Philadelphia (PA): AACR; Blood Cancer Discov 2024;5(2_Suppl):Abstract nr P04.
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