| Literature DB >> 32755592 |
Egle Radice1, Rafet Ameti1, Serena Melgrati1, Mathilde Foglierini2, Paola Antonello1, Rolf A K Stahl3, Sylvia Thelen4, David Jarrossay4, Marcus Thelen5.
Abstract
The marginal zone (MZ) contributes to the highly organized spleen microarchitecture. We show that expression of atypical chemokine receptor 3 (ACKR3) defines two equal-sized populations of mouse MZ B cells (MZBs). ACKR3 is required for development of a functional MZ and for positioning of MZBs. Deletion of ACKR3 on B cells distorts the MZ, and MZBs fail to deliver antigens to follicles, reducing humoral responses. Reconstitution of MZ-deficient CD19ko mice shows that ACKR3- MZBs can differentiate into ACKR3+ MZBs, but not vice versa. The lack of a MZ is rescued by adoptive transfer of ACKR3-sufficient, and less by ACKR3-deficient, follicular B cells (FoBs); hence, ACKR3 expression is crucial for establishment of the MZ. The inability of CD19ko mice to respond to T-independent antigen is rescued when ACKR3-proficient, but not ACKR3-deficient, FoBs are transferred. Accordingly, ACKR3-deficient FoBs are able to reconstitute the MZ if the niche is pre-established by ACKR3-proficient MZBs.Entities:
Keywords: ACKR3; CXCR4; CXCR5; atypical chemokine receptor; chemokine; immune response; marginal zone; marginal zone B cell; spleen
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Year: 2020 PMID: 32755592 DOI: 10.1016/j.celrep.2020.107951
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423