Key Super Enhancers Drive Tumor-Suppressing Transcription Feedback Programs in Mature B Cell Cancers (ChIP-seq, FAIRE-seq)
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ABSTRACT: Dynamic changes to the epigenome are essential regulators of B cell differentiation and, when perturbed, can lead to cancer. We compared three types of mature B cell lymphoma/leukemia (BCL) and normal lymphocytes to identify common and distinct epigenetic perturbations that promote oncogenesis. Purified malignant B cells from 52 patients (18 Follicular, 11 Diffuse Large B Cell, 23 Chronic Lymphocytic Lymphomas) and normal B cell subsets from 28 donor tonsils were subjected to chromatin immunoprecipitation and sequencing (ChIP-seq) for H3K4me1, H3K9/14ac, and H3K27ac; FAIRE-seq for open chromatin; RNA-seq; and genome copy number arrays. We identified a novel super enhancer (SE) connected to the aberrant expression of FCMR and PIGR in multiple BCL subtypes, which may drive the tissue-specific expression of the two immunoglobulin receptor genes. These integrative studies also revealed that loss of normal B cell SEs in BCL was associated with significant reduction in linked gene expression, the greatest impact among regulatory elements. Downregulation of crucial B cell transcription factors (TF) and tumor suppressors was consistent across BCL subtypes and linked to significantly diminished or absent active chromatin marks in adjacent SEs. These BCL-repressed SEs are enriched in binding sites for the same suppressed TFs that they regulate, suggesting transcriptional regulatory feedback loops for these key B cell identity genes. In sum, this study defined common alterations in the regulomes of mature B cell leukemias and lymphomas and implicate SEs as important hubs of tumor suppressing transcriptional feedback loops that are perturbed in B cell cancer.
ORGANISM(S): Homo sapiens
PROVIDER: GSE145841 | GEO | 2021/09/02
REPOSITORIES: GEO
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