Capsular Glycan Recognition Provides Antibody-Mediated Immunity Against Tuberculosis

A better understanding of all immune components involved in protecting against M. tuberculosis infection is urgently needed to inform strategies for novel immunotherapy and tuberculosis (TB) vaccine development. While cell-mediated immunity is critical, increasing evidence supports that antibodies also have a protective role against TB. Yet, knowledge of protective antigens is limited. Analyzing sera from 97 US immigrants at various states of M. tuberculosis infection, we showed protective in vitro and in vivo efficacy of polyclonal IgG to the M. tuberculosis capsular polysaccharide arabinomannan (AM). Using recently developed glycan arrays, we established that anti-AM IgG induced in natural infection is highly heterogeneous in its binding specificity and differs in both its reactivity to oligosaccharide motifs within AM and its functions between BCG vaccination and/or controlled (latent) versus uncontrolled (TB) M. tuberculosis infection. We showed that anti-AM IgG from asymptomatic but not diseased individuals was protective, and provided data suggesting a potential role of IgG2 and specific AM oligosaccharides. Filling a gap in the current knowledge of protective antigens in humans, our data support the key role of the M. tuberculosis surface glycan AM and suggest the importance of targeting specific glycan epitopes within AM in antibody-mediated immunity against TB.