More than one antibody of individual B cells revealed by single-cell immune profiling

Zhan Shi,Pingzhang Wang,Liang Zhang,Yongliang Zhao,Ying Yang,Xiaoning Mo,Hui Dai,Yixiao Zhang,Bao‐Fa Sun ,Wenjing Zhou,Qianqian Wang,Qingyang Zhang,Zhenling Deng,Meng Yu,Jing Huang,Chi Zhang,Xi Yang,Huige Yan,Xiaoyan Qiu

doi:10.1038/s41421-019-0137-3

Abstract

Antibodies have a common structure consisting of two identical heavy (H) and two identical light (L) chains. It is widely accepted that a single mature B cell produces a single antibody through restricted synthesis of only one VHDJH (encoding the H-chain variable region) and one VLJL (encoding the L-chain variable region) via recombination. Naive B cells undergo class-switch recombination (CSR) from initially producing membrane-bound IgM and IgD to expressing more effective membrane-bound IgG, IgA, or IgE when encountering antigens. To ensure the “one cell — one antibody” paradigm, only the constant region of the H chain is replaced during CSR, while the rearranged VHDJH pattern and the L chain are kept unchanged. To define those long-standing classical concepts at the single-cell transcriptome level, we applied the Chromium Single-Cell Immune Profiling Solution and Sanger sequencing to evaluate the Ig transcriptome repertoires of single B cells. Consistent with the “one cell — one antibody” rule, most of the B cells showed one V(D)J recombination pattern. Intriguingly, however, two or more VHDJH or VLJL recombination patterns of IgH chain or IgL chain were also observed in hundreds to thousands of single B cells. Moreover, each Ig class showed unique VHDJH recombination pattern in a single B-cell expressing multiple Ig classes. Together, our findings reveal an unprecedented presence of multi-Ig specificity in some single B cells, implying regulation of Ig gene rearrangement and class switching that differs from the classical mechanisms of both the “one cell — one antibody” rule and CSR.

Highlights

Immunoglobulins (Igs), called antibodies, are composed of four peptide chains (two identical heavy (H) and two identical light (L) chains) and produced by B lymphocytes
The 5′ gene expression (GEX) library and V(D)J immune repertoires (Ig transcripts of all five classes of IgH chains and two types of IgL chains) in a total of 18,899 CD19+ cells sorted from five donors were acquired in the same input sample
We analyzed the number of VHDJH and VLJL recombination patterns in each individual B cell and found that most single B cells displayed one VHDJH or VLJL recombination, consistent with the classical concepts

Summary

Introduction

Immunoglobulins (Igs), called antibodies, are composed of four peptide chains (two identical heavy (H) and two identical light (L) chains) and produced by B lymphocytes. VLJL rearrangement in each single B cell occurs in only one type of either the κ or λ chain (isotype exclusion)[4] This clonal selection theory has been widely accepted, and the “one cell — one antibody” rule has been supported by early surface membrane analysis of B lymphocytes using Ig-allotype-specific antisera[11,12] and further confirmed by later monoclonal antibodyproducing hybridoma cells[13,14,15]. Whether this concept can be reproduced at the level of a single B-cell transcriptome remains unknown

Methods

Results

Conclusion