Enhancers of the PAIR4 regulatory module promote distal VH gene recombination at the Igh locus

Author:

Hill Louisa1ORCID,Jaritz Markus1ORCID,Tagoh Hiromi1ORCID,Schindler Karina1,Kostanova‐Poliakova Daniela1,Sun Qiong1,Schwickert Tanja A1ORCID,Leeb Martin2ORCID,Busslinger Meinrad1ORCID

Affiliation:

1. Research Institute of Molecular Pathology (IMP) Vienna BioCenter (VBC) Vienna Austria

2. Max Perutz Laboratories University of Vienna, Vienna BioCenter (VBC) Vienna Austria

Abstract

AbstractWhile extended loop extrusion across the entire Igh locus controls VH‐DJH recombination, local regulatory sequences, such as the PAIR elements, may also activate VH gene recombination in pro‐B‐cells. Here, we show that PAIR‐associated VH8 genes contain a conserved putative regulatory element (V8E) in their downstream sequences. To investigate the function of PAIR4 and its V8.7E, we deleted 890 kb containing all 14 PAIRs in the Igh 5′ region, which reduced distal VH gene recombination over a 100‐kb distance on either side of the deletion. Reconstitution by insertion of PAIR4‐V8.7E strongly activated distal VH gene recombination. PAIR4 alone resulted in lower induction of recombination, indicating that PAIR4 and V8.7E function as one regulatory unit. The pro‐B‐cell‐specific activity of PAIR4 depends on CTCF, as mutation of its CTCF‐binding site led to sustained PAIR4 activity in pre‐B and immature B‐cells and to PAIR4 activation in T‐cells. Notably, insertion of V8.8E was sufficient to activate VH gene recombination. Hence, enhancers of the PAIR4‐V8.7E module and V8.8E element activate distal VH gene recombination and thus contribute to the diversification of the BCR repertoire in the context of loop extrusion.

Funder

Österreichische Forschungsförderungsgesellschaft

Publisher

Springer Science and Business Media LLC

Subject

General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology,Molecular Biology,General Neuroscience

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