B cell transcriptomics reveals lasting dysregulation and rapid decline of protective memory after hepatitis C cure

Chronic hepatitis C (CHC) disrupts host humoral immune response by impairing the timely generation of neutralizing antibody (nAb) and durable immune memory. However, the underlying mechanisms and their reversibility after viral clearance remain poorly defined. Here, through integrated single-cell transcriptomics and antibody repertoire characterization, we show that B cells from CHC patients retain transcriptional dysregulation even after successful antiviral therapy. Sustained TNF-α signaling emerged as a central driver of chronic B cell hyperactivation, persistent dysregulation and unresolved inflammation following cure. Furthermore, a CD86hi memory B cell subset, responsible for an IGHV1-69-encoded multi-donor class recall nAb response, declined rapidly following viral clearance, compromising immune memory against reinfection. Together, these findings reveal how CHC imprints lasting B cell dysregulation, impairs nAb memory, and sustains inflammation in the B cell compartment, after viral clearance. The insights underscore the need for strategies aimed at restoring B cell homeostasis to achieve durable immune protection.