Litcius/Paper detail

Airway Macrophages Mediate Mucosal Vaccine–Induced Trained Innate Immunity against <i>Mycobacterium tuberculosis</i> in Early Stages of Infection

Michael R. D’Agostino, Rocky Lai, Sam Afkhami, Amandeep Khera, Yushi Yao, Maryam Vaseghi‐Shanjani, Anna Zganiacz, Mangalakumari Jeyanathan, Zhou Xing

2020The Journal of Immunology57 citationsDOI

Abstract

Abstract Mycobacterium tuberculosis, the causative agent of pulmonary tuberculosis (TB), is responsible for millions of infections and deaths annually. Decades of TB vaccine development have focused on adaptive T cell immunity, whereas the importance of innate immune contributions toward vaccine efficacy has only recently been recognized. Airway macrophages (AwM) are the predominant host cell during early pulmonary M. tuberculosis infection and, therefore, represent attractive targets for vaccine-mediated immunity. We have demonstrated that respiratory mucosal immunization with a viral-vectored vaccine imprints AwM, conferring enhanced protection against heterologous bacterial challenge. However, it is unknown if innate immune memory also protects against M. tuberculosis. In this study, by using a murine model, we detail whether respiratory mucosal TB vaccination profoundly alters the airway innate immune landscape associated with AwM prior to M. tuberculosis exposure and whether such AwM play a critical role in host defense against M. tuberculosis infection. Our study reveals an important role of AwM in innate immune protection in early stages of M. tuberculosis infection in the lung.

Topics & Concepts

Innate immune systemTuberculosisImmunologyMycobacterium tuberculosisImmune systemTuberculosis vaccinesImmunityVaccinationAcquired immune systemHeterologousBiologyMedicineVirologyPathologyGeneBiochemistryImmune responses and vaccinationsTuberculosis Research and EpidemiologyImmune cells in cancer