Galectin-3 recruitment at the Mycobacterium tuberculosis -containing phagosome is critical in macrophage but dispensable in epithelial cells
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Mycobacterium tuberculosis ( Mtb ) virulence relies in part on its ability to induce phagosomal membrane rupture, enabling bacterial access to the host cell cytosol. This process is largely mediated by the ESX-1 secretion system, which is present in Mtb but absent from the vaccine strain BCG. Galectin-3 (Gal3), a β-galactoside–binding lectin, is recruited to damaged endomembranes and functions as a cytosolic sensor of membrane disruption. However, the kinetics and quantitative features of Gal3 recruitment to Mtb -containing vacuoles have remained poorly characterized.
Here, we performed a longitudinal quantitative imaging study of Gal3 recruitment in human macrophages over a five-day infection period. Gal3 was recruited to mycobacteria-containing vacuoles shortly after infection with both live and heat-killed Mtb . Differences between the two conditions emerged from day 1 post-infection and persisted until macrophage death. A similar kinetic profile was observed with recombinant BCG::ESX-1, whereas parental BCG failed to induce Gal3 recruitment, confirming the requirement for ESX-1–dependent membrane damage.
Cytoplasmic Gal3 levels were higher in bystander macrophages than in infected cells and were comparable to non-infected controls, suggesting that diffuse cytoplasmic Gal3 is associated with cells lacking intracellular mycobacteria. Functional studies revealed that Gal3 silencing enhanced long-term intracellular Mtb replication, demonstrating a role for Gal3 in restricting bacterial growth.
Importantly, Gal3 recruitment was not observed in alveolar epithelial cells. This cell-type specificity was confirmed in a microfluidic alveolus-on-chip model. Together, these findings identify sustained Gal3 recruitment to the mycobacteria-containing vacuole as a robust quantitative marker of ESX-1–dependent phagosomal rupture and Mtb virulence.