| Literature DB >> 34327838 |
Qiang Fu1,2, Kang Mi Lee2, Guoli Huai1,2, Kevin Deng2, Divyansh Agarwal3, Charles G Rickert2, Noel Feeney2, Rudy Matheson2, Hongji Yang1, Christian LeGuern2, Shaoping Deng1, James F Markmann2.
Abstract
Regulatory B cells (Bregs) have shown promise as anti-rejection therapy applied to organ transplantation. However, less is known about their effect on other B cell populations that are involved in chronic graft rejection. We recently uncovered that naïve B cells, stimulated by TLR ligand agonists, converted into B cells with regulatory properties (Bregs-TLR) that prevented allograft rejection. Here, we examine the granular phenotype and regulatory properties of Breg-TLR cells suppressing B cells. Cocultures of Bregs-TLR with LPS-activated B cells showed a dose-dependent suppression of targeted B cell proliferation. Adoptive transfers of Bregs-TLR induced a decline in antibody responses to antigenically disparate skin grafts. The role of Breg BCR specificity in regulation was assessed using B cell-deficient mice replenished with transgenic BCR (OB1) and TCR (OT-II) lymphocytes of matching antigenic specificity. Results indicated that proliferation of OB1 B cells, mediated through help from CD4+ OT-II cells, was suppressed by OB1 Bregs of similar specificity. Transcriptomic analyses indicated that Bregs-TLR suppression is associated with a block in targeted B cell differentiation controlled by PRDM1 (Blimp1). This work uncovered the regulatory properties of a new brand of Breg cells and provided mechanistic insights into potential applications of Breg therapy in transplantation.Entities:
Keywords: B cell biology; basic (laboratory) research / science; cellular biology; flow cytometry; immune regulation; immunobiology; immunosuppression / immune modulation; translational research / science
Mesh:
Year: 2021 PMID: 34327838 PMCID: PMC8639638 DOI: 10.1111/ajt.16772
Source DB: PubMed Journal: Am J Transplant ISSN: 1600-6135 Impact factor: 8.086