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RNA-sequencing data-driven dissection of human plasma cell differentiation reveals new potential transcription regulators

Alboukadel Kassambara, Laurie Herviou, Sara Ovejero, Michel Jourdan, Coraline Thibaut, Veronika Vikova, Philippe Pasero, Olivier Elemento, Jérôme Moreaux

2021Leukemia52 citationsDOIOpen Access PDF

Abstract

Plasma cells (PCs) play an important role in the adaptive immune system through a continuous production of antibodies. We have demonstrated that PC differentiation can be modeled in vitro using complex multistep culture systems reproducing sequential differentiation process occurring in vivo. Here we present a comprehensive, temporal program of gene expression data encompassing human PC differentiation (PCD) using RNA sequencing (RNA-seq). Our results reveal 6374 differentially expressed genes classified into four temporal gene expression patterns. A stringent pathway enrichment analysis of these gene clusters highlights known pathways but also pathways largely unknown in PCD, including the heme biosynthesis and the glutathione conjugation pathways. Additionally, our analysis revealed numerous novel transcriptional networks with significant stage-specific overexpression and potential importance in PCD, including BATF2, BHLHA15/MIST1, EZH2, WHSC1/MMSET, and BLM. We have experimentally validated a potent role for BLM in regulating cell survival and proliferation during human PCD. Taken together, this RNA-seq analysis of PCD temporal stages helped identify coexpressed gene modules with associated up/downregulated transcription regulator genes that could represent major regulatory nodes for human PC maturation. These data constitute a unique resource of human PCD gene expression programs in support of future studies for understanding the underlying mechanisms that control PCD.

Topics & Concepts

BiologyGene expressionGeneRegulation of gene expressionTranscriptomeTranscriptional regulationTranscription factorCellular differentiationCell biologyComputational biologyRNATranscription (linguistics)GeneticsLinguisticsPhilosophyImmune Cell Function and InteractionT-cell and B-cell ImmunologyRNA modifications and cancer
RNA-sequencing data-driven dissection of human plasma cell differentiation reveals new potential transcription regulators | Litcius