Abstract

Regardless of the eventual site of disease, the point of entry for Mycobacterium tuberculosis (M.tb) is via the respiratory tract and tuberculosis (TB) remains primarily a disease of the lungs. Immunological biomarkers detected from the respiratory compartment may be of particular interest in understanding the complex immune response to M.tb infection and may more accurately reflect disease activity than those seen in peripheral samples. Studies in humans and a variety of animal models have shown that biomarkers detected in response to mycobacterial challenge are highly localized, with signals seen in respiratory samples that are absent from the peripheral blood. Increased understanding of the role of pulmonary specific biomarkers may prove particularly valuable in the field of TB vaccines. Here, development of vaccine candidates is hampered by the lack of defined correlates of protection (COPs). Assessing vaccine immunogenicity in humans has primarily focussed on detecting these potential markers of protection in peripheral blood. However, further understanding of the importance of local pulmonary immune responses suggests alternative approaches may be necessary. For example, non-circulating tissue resident memory T cells (TRM) play a key role in host mycobacterial defenses and detecting their associated biomarkers can only be achieved by interrogating respiratory samples such as bronchoalveolar lavage fluid or tissue biopsies. Here, we review what is known about pulmonary specific immunological biomarkers and discuss potential applications and further research needs.

Highlights

  • Tuberculosis (TB) remains one of the top ten causes of death worldwide

  • These findings suggest that vaccination routes and strategies which induce pulmonary CD4+ and CD8+ Tissue resident memory cells (TRM) may result in superior levels of protection

  • Delivery of vaccine candidates via aerosol routes has been shown to induce specific mucosal immune components that can be compared across species, with Bronchoalveolar lavage (BAL) samples from macaques and humans following aerosol MVA85A showing increased levels of antigen-specific cellular immune responses compared to peripheral blood [61,62,63]

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Summary

Local Pulmonary Immunological Biomarkers in Tuberculosis

Edited by: Adam Penn-Nicholson, Foundation for Innovative New Diagnostics, Switzerland. Immunological biomarkers detected from the respiratory compartment may be of particular interest in understanding the complex immune response to M.tb infection and may more accurately reflect disease activity than those seen in peripheral samples. Studies in humans and a variety of animal models have shown that biomarkers detected in response to mycobacterial challenge are highly localized, with signals seen in respiratory samples that are absent from the peripheral blood. Increased understanding of the role of pulmonary specific biomarkers may prove valuable in the field of TB vaccines. Assessing vaccine immunogenicity in humans has primarily focussed on detecting these potential markers of protection in peripheral blood. Further understanding of the importance of local pulmonary immune responses suggests alternative approaches may be necessary. We review what is known about pulmonary specific immunological biomarkers and discuss potential applications and further research needs

INTRODUCTION
Pulmonary Immunological Biomarkers in Tuberculosis
Trained Immunity
Alveolar Macrophages
Innate Lymphoid Cells
Lung Tissue Resident Memory Cells
Lung Mucosal Antibodies IgA
LINKING THE INNATE AND ADAPTIVE IMMUNE SYSTEM
INTERROGATING PULMONARY MUCOSAL IMMUNITY
Specific Challenges of Human Studies
Findings
DISCUSSION

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