Abstract
BackgroundThe chlamydiae alter many aspects of host cell biology, including the division process, but the molecular biology of these alterations remains poorly characterized. Chlamydial inclusion membrane proteins (Incs) are likely candidates for direct interactions with host cell cytosolic proteins, as they are secreted to the inclusion membrane and exposed to the cytosol. The inc gene CT223 is one of a sequential set of orfs that encode or are predicted to encode Inc proteins. CT223p is localized to the inclusion membrane in all tested C. trachomatis serovars.ResultsA plasmid transfection approach was used to examine the function of the product of CT223 and other Inc proteins within uninfected mammalian cells. Fluorescence microscopy was used to demonstrate that CT223, and, to a lesser extent, adjacent inc genes, are capable of blocking host cell cytokinesis and facilitating centromere supranumeracy defects seen by others in chlamydiae-infected cells. Both phenotypes were associated with transfection of plasmids encoding the carboxy-terminal tail of CT223p, a region of the protein that is likely exposed to the cytosol in infected cells.ConclusionThese studies suggest that certain Inc proteins block cytokinesis in C. trachomatis-infected cells. These results are consistent with the work of others showing chlamydial inhibition of host cell cytokinesis.
Highlights
The chlamydiae alter many aspects of host cell biology, including the division process, but the molecular biology of these alterations remains poorly characterized
Distribution of CT223p at the inclusion membrane varies in different C. trachomatis strains CT223p is localized to the inclusion membrane in cells infected by C. trachomatis at time points after 8 hours post infection (p.i.)
The localization of CT223p is different in cells infected by representatives of different C. trachomatis serovars
Summary
The chlamydiae alter many aspects of host cell biology, including the division process, but the molecular biology of these alterations remains poorly characterized. CT223p is localized to the inclusion membrane in all tested C. trachomatis serovars. Chlamydiae are obligate intracellular bacteria that replicate in a cytoplasmic vacuole (the inclusion) within host cells [1,2]. Chlamydia trachomatis infections lead to serious mucosal diseases of humans including blinding trachoma [3] and diseases of the genital tract [4]. The study of chlamydial host-pathogen relationships is complicated by the lack of a genetic system to manipulate the chlamydial genome, and alternate approaches must be used to understand chlamydial virulence properties. BMC Microbiology 2009, 9:2 http://www.biomedcentral.com/1471-2180/9/2 has been useful in these studies is the use of surrogate genetic systems including yeast, mammalian cells, and other bacterial species [5,6,7,8,9,10].
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