Unmasking of CD22 Co-receptor on Germinal Center B-cells Occurs by Alternative Mechanisms in Mouse and Man

Matthew S Macauley,Norihito Kawasaki,Wenjie Peng,Shui-Hua Wang,Yuan He,Britni M Arlian,Ryan Mcbride,Reiji Kannagi,Kay-Hooi Khoo,James C Paulson

doi:10.1074/jbc.m115.691337

Abstract

CD22 is an inhibitory B-cell co-receptor whose function is modulated by sialic acid (Sia)-bearing glycan ligands. Glycan remodeling in the germinal center (GC) alters CD22 ligands, with as yet no ascribed biological consequence. Here, we show in both mice and humans that loss of high affinity ligands on GC B-cells unmasks the binding site of CD22 relative to naive and memory B-cells, promoting recognition of trans ligands. The conserved modulation of CD22 ligands on GC B-cells is striking because high affinity glycan ligands of CD22 are species-specific. In both species, the high affinity ligand is based on the sequence Siaα2-6Galβ1-4GlcNAc, which terminates N-glycans. The human ligand has N-acetylneuraminic acid (Neu5Ac) as the sialic acid, and the high affinity ligand on naive B-cells contains 6-O-sulfate on the GlcNAc. On human GC B-cells, this sulfate modification is lost, giving rise to lower affinity CD22 ligands. Ligands of CD22 on naive murine B-cells do not contain the 6-O-sulfate modification. Instead, the high affinity ligand for mouse CD22 has N-glycolylneuraminic acid (Neu5Gc) as the sialic acid, which is replaced on GC B-cells with Neu5Ac. Human naive and memory B-cells express sulfated glycans as high affinity CD22 ligands, which are lost on GC B-cells. In mice, Neu5Gc-containing glycans serve as high affinity CD22 ligands that are replaced by Neu5Ac-containing glycans on GC B-cells. Our results demonstrate that loss of high affinity CD22 ligands on GC B-cells occurs in both mice and humans through alternative mechanisms, unmasking CD22 relative to naive and memory B-cells.

Highlights

Changes in glycosylation on germinal center B-cells have the potential to influence CD22
Our results demonstrate that loss of high affinity CD22 ligands on germinal center (GC) B-cells occurs in both mice and humans through alternative mechanisms, unmasking CD22 relative to naive and memory B-cells
CD22 Is Unmasked on GC B-cells from Mouse and Human— To investigate how altered CD22 ligands on GC B-cells affect the ability of CD22 to recognize trans ligands, we carried out binding studies with fluorescent liposomal nanoparticles bearing selective ligands for human CD22 (MPBNeu5Ac) [24] and mouse CD22 (BPANeu5Gc) [25]

Summary

Background

Changes in glycosylation on germinal center B-cells have the potential to influence CD22. We show in both mice and humans that loss of high affinity ligands on GC B-cells unmasks the binding site of CD22 relative to naive and memory B-cells, promoting recognition of trans ligands. Our results demonstrate that loss of high affinity CD22 ligands on GC B-cells occurs in both mice and humans through alternative mechanisms, unmasking CD22 relative to naive and memory B-cells. There is an appearance of N-acetylneuraminic acid (Neu5Ac) on GC B-cells, which is revealed by staining with the antibody GL7 [6] This change impacts the cis ligands of murine CD22, which exhibits Ͼ10-fold high affinity for Neu5Gc ␣2– 6 linked to an underlying LacNAc (Gal␤1– 4GlcNAc), compared with the corresponding sialoside containing Neu5Ac (Fig. 1) [17, 18]. Mass spectrometry glycomic profiling of human B-cells, biochemical characterization of GL7 and KN343 antibody specificities by glycan microarrays, and analysis of CD22 binding affinity with synthetically prepared sialosides cumulatively provide strong evidence that unmasking of CD22 on GC B-cells occurs in both mice and humans, yet through different mechanisms that are tailored to the glycans found on murine and human B-cells

Experimental Procedures

Results

Discussion