Metformin is the preferred oral medication for patients with type 2 diabetes mellitus, and this blood glucose-lowering and insulin-sensitizing drug has immunomodulatory effects that could contribute to the management of patients with various other autoimmune and infectious diseases. Tuberculosis is one such infection, and it remains prevalent worldwide, largely due to the successful evasion of the host's immune responses by the infecting pathogen, Mycobacterium tuberculosis. This review focuses on the possible mechanisms relevant to metformin's modulation of innate and adaptive immune responses to Mycobacterium tuberculosis and its potential use as an adjunctive drug in the treatment of tuberculosis. Current data suggest that metformin increases autophagy, phagocytosis, and mitochondrial reactive oxygen species production, while limiting excess inflammation and tissue destruction. This multifaceted drug also augments cell-mediated immune responses by maintaining CD8+ T cell metabolic homeostasis and improving immunological memory. Several murine models have demonstrated that metformin can reduce tuberculosis severity and tissue pathology, and two in vitro human studies confirmed enhanced immune responses in metformin-treated cells. These studies provide convincing evidence supporting the use of metformin to augment immune responses in patients with tuberculosis.
Keywords: Adaptive immunity; Antimycobacterial mechanisms; Innate immunity; Metformin; Tuberculosis.
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