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Inhibition of phagosome-lysosome fusion in macrophages by certain mycobacteria can be explained by inhibition of lysosomal movements observed after phagocytosis.

We have investigated the mechanism of the inhibition of phagosome-lysosome (P-L) fusion in macrophages known to occur after infection by Mycobacterium tuberculosis and by the mouse pathogen Mycobacterium microti. We have used an M. microti infection and have studied, first, the saltatory movements of periphagosomal secondary lysosomes by means of visual phase-contrast microscopy (a similar use of the method having been previously supported by computer analyses). The movements became slow or static after ingestion of live but not of heat-killed M. microti. They were unaffected by a fusiogenic mycobacterium M. lepraemurium. Second, we studied the behavior of a normally fusiogenic unrelated organism, Saccharomyces cerevisiae, after its phagocytosis by cells already containing live M. microti ingested 18 h previously. We observed, using a fluorescent assay of fusion, that many of these yeast phagosomes now also failed to fuse with the lysosomes; in contrast, when the host M. microti had been heat killed the yeast phagosomes fused normally. These observations were extended by ultrastructural quantitative analyses of P-L fusion, which confirmed the nonfusion of phagosomes of live M. microti and, more particularly, the change to nonfusion from the normal fusion behavior of the separate phagosomes of accompanying yeasts. Third, we have assembled evidence against the likelihood that these M. microti-induced phenomena are nonspecific, i.e., secondary to a general depression of activity of heavily infected host cells. The evidence includes the feasibility of adjusting the degree of infection so as to facilitate visual assessment of organelle movements without the presence of detectable damage to the cells studied; the absence of lysosomal stasis after comparable infection with another mycobacterium of comparable virulence (M. lepraemurium); and the reversibility of the stasis. We conclude that inhibition of lysosome saltatory movements (and consequently its secondary effect on the associated yeasts) is a significant, specifically induced phenomenon. From these observations and considerations, therefore, in conjunction with the analogous inhibition of lysosomal movements in normal macrophages by some chemical inhibitors of P-L fusion, and our suggestion that this association is causally related, we now suggest that M. microti-induced focal lysosomal stasis is also the main means by which the inhibition of P-L fusion is brought about by this organism. This concept is strengthened by the observations on S. cerevisiae, which provide strong evidence that stasis can cause suppression of fusion.

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