Lupus-associated Atypical Memory B Cells Are MTORC1-hyperactivated and Functionally Dysregulated

Overview

Journal Ann Rheum Dis

Specialty Rheumatology

Date 2019 May 31

PMID 31142473

Citations 35

Authors

Chunmei Wu

Qiong Fu

Qiang Guo

Sheng Chen

Shyamal Goswami

Shuhui Sun

Teng Li

Xingjian Cao

Fuying Chu

Zechuan Chen

Mei Liu

YuanHua Liu

Ting Fu

Pei Hao

Yi Hao

Nan Shen

Chunde Bao

Xiaoming Zhang

Affiliations

Soon will be listed here.

Abstract

Objectives: A population of atypical memory B cells (AtMs) are greatly expanded in patients with active lupus, but their generation and pathophysiological roles are poorly defined. The aim of this study was to comprehensively characterise lupus AtMs with a purpose to identify therapeutic clues to target this B cell population in lupus.

Methods: Peripheral B cell subsets were measured by flow cytometry. Sorting-purified B cell subsets were subject to RNA sequencing and functional studies. Plasma cytokines and secreted immunoglobulins were detected by Luminex or ELISA. In situ renal B cells were detected by multiplexed immunohistochemistry.

Results: CD24CD20 AtMs were strongly increased in two Chinese cohorts of patients with treatment-naïve lupus. Gene expression profile indicated that B cell signalling and activation, lipid/saccharide metabolism and endocytosis pathways were abnormally upregulated in lupus AtMs. In addition, the mammalian target of rapamycin complex 1 (mTORC1) pathway was remarkably activated in lupus AtMs, and blocking mTORC1 signalling by rapamycin abolished the generation of T-bet B cells and terminal differentiation of lupus AtMs. Furthermore, lupus AtMs displayed a dysfunctional phenotype, underwent accelerated apoptosis, poorly co-stimulated T cells and produced proinflammatory cytokines. Interestingly, lupus AtMs were in a paradoxically differentiated status with markers pro and against terminal differentiation and enriched with antinucleosome reactivity. Finally, AtMs were accumulated in the kidneys of patients with lupus nephritis and associated with disease severity.

Conclusions: These findings demonstrated that mTORC1-overactivated lupus AtMs are abnormally differentiated with metabolic and functional dysregulations. Inhibiting mTORC1 signalling might be an attractive option to target AtMs and to improve therapeutic effectiveness in patients with lupus.

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