Abstract

AbstractHepatitis C virus (HCV) causes mixed cryoglobulinemia (MC) by driving clonal expansion of IgM+CD27+ B cells. These cells display both the features of anergy induced by continual engagement of the B-cell receptor (BCR), such as high expression of phosphorylated extracellular signal–regulated kinase (pERK) and reduced lifespan, and of virus-specific exhaustion, such as CD21low phenotype and a defective response to ligation of BCR and Toll-like receptor 9 (TLR9). MC usually regresses after eradication of HCV with interferon, whose immunomodulatory activity might contribute to this effect. We investigated the phenotypic and functional changes in clonal B cells of MC patients with sustained virologic responses to direct-acting antivirals (DAAs), which lack immunomodulatory properties. We found that high pERK expression and accelerated apoptosis revert within 4 weeks after beginning therapy, whereas clonal B cells unresponsive to TLR9 stimulation persist for at least 24 weeks, although they may partially rescue normal CD21 expression. Thus, similar to mouse models, features of anergy in MC B cells rapidly revert after disengagement from HCV, whereas virus-specific exhaustion imparts a durable inhibitory imprint on cell function. Treatment of HCV+ MC with DAAs provides a valuable tool for untangling the molecular mechanisms of anergy and exhaustion in human B cells.

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