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Manipulation of host cells by Chlamydia trachomatis: function and subcellular localization of an inclusion membrane protein
Publication . Luís, Maria Silva Filipe Pequito; Mota, Luís
Chlamydia trachomatis is an obligate intracellular bacterial pathogen that causes ocular and
genital infections of major burden worldwide. Once inside host cells,
C. trachomatis resides
within a specialized vacuole, known as an inclusion. From within the inclusion,
C. trachomatis
utilizes a type III secretion system to transport effector proteins into the host cell which subvert
many cellular processes. Among these effectors, there is a large group, termed Incs, which
insert at the inclusion membrane. In this work, to advance the understanding on molecular and
cellular mechanisms underlying
C. trachomatis virulence, we focused on characterizing the role
of Inc CT288/CTL0540 (renamed IncM). We showed that IncM is conserved among mostChlamydia species, highlighting its evolutionary significance. At a functional level, we revealed
that IncM participates in the ability of
Chlamydia to inhibit host cytokinesis, dislocate
centrosomes, and redistribute the Golgi complex around the inclusion. IncM also showed to
contribute to the maintenance of the inclusion morphology and stability, and the circularity of
IncM-deficient inclusions was specifically sensitive to microtubule depolymerization. Overall,
these findings suggested that IncM may exert its effector function by acting directly or
indirectly on host microtubules. We also found an intriguing role of the promoter used for
inc
gene expression regarding the exact localization of IncM and other Incs (IncD and InaC). This
led us to identify three novel bona fide Incs (CT195, CT214, and CT484). In summary, by
detailing the function of IncM, this work increased the understanding of how
C. trachomatis
manipulates host cells through its effectors. It also suggests future studies on how IncM acts
on host microtubules, how the novel identified Incs function, and how gene expression within
the chlamydiae can dictate an exact protein localization at the inclusion membrane.
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Fundação para a Ciência e a Tecnologia
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SFRH/BD/144284/2019