Tuberculosis and T cells: Impact of T cell diversity in tuberculosis infection.

Tuberculosis and T cells: Impact of T cell diversity in tuberculosis infection.

Publication date: Dec 01, 2024

Tuberculosis is a global threat and is still a leading cause of death due to an infectious agent. The infection is spread through inhalation of M. tb containing aerosol droplets. Bacteria after reaching the lung alveoli are engulfed by alveolar macrophages, leading to an immune response. Then, pro-inflammatory cytokines are released by these macrophages, recruiting other antigen-presenting cells like dendritic cells. These cells phagocytose the bacteria and present mycobacterial antigens to nacEFve T cells. After activation by DCs, T cells differentiate into various T cells subsets, viz. CD4, CD8, Th17, Treg, Tfh cells and others display enormous diversification in their characteristics and functions. This review comprises a comprehensive literature on conventional and unconventional T cells, highlighting the polyfunctional T cells as well, their role in controlling TB infection, and their implications in the spectrum of TB infection. While some subsets such as CD4 T cells are extensively studied, some T cell subsets such as gamma delta T cells and Tfh cells remain poorly understood in the pathophysiology of tuberculosis, despite having significant potential implications. The goal of TB eradication can be assisted by development of better vaccines against TB, which can effectively induce a robust and long-term T cells memory. The same has been discussed in the latter part of this review. BCG being the standalone commercialised TB vaccine so far has its limitations. Strategies for the enhancement of BCG along with novel studies in vaccine development, has also been discussed in great detail. Lastly, T cells display a complex interplay of an adaptive immune response against TB, with activation and enhancement of the innate immune responses. Therefore, it is critical to fully understand the role of various T cells subsets in pathophysiology of tuberculosis to provide better therapeutic inventions and improve patient care.

Concepts Keywords
Cd4 Animals
Mycobacterial BCG vaccine
Pro Host-Pathogen Interactions
Tuberculosis Humans
Vaccines Memory T cells
Mycobacterium tuberculosis
T cell exhaustion
T cell subsets
T-Lymphocyte Subsets
Tuberculosis
Tuberculosis

Semantics

Type Source Name
disease MESH Tuberculosis
pathway KEGG Tuberculosis
disease IDO cell
disease MESH infection
disease MESH cause of death
disease IDO infectious agent
disease IDO bacteria
disease IDO immune response
drug DRUGBANK Cycloserine
disease IDO role
drug DRUGBANK Tropicamide
drug DRUGBANK BCG vaccine
disease IDO adaptive immune response
disease IDO host
disease IDO pathogen
disease MESH T cell exhaustion

Original Article

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