The Chlamydia pneumoniae effector SemD exploits its host's endocytic machinery by structural and functional mimicry.

Autor: Kocher, Fabienne, Applegate, Violetta, Reiners, Jens, Port, Astrid, Spona, Dominik, Hänsch, Sebastian, Mirzaiebadizi, Amin, Ahmadian, Mohammad Reza, Smits, Sander H. J., Hegemann, Johannes H., Mölleken, Katja
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Zdroj: Nature Communications; 8/24/2024, Vol. 15 Issue 1, p1-16, 16p
Abstrakt: To enter epithelial cells, the obligate intracellular pathogen Chlamydia pneumoniae secretes early effector proteins, which bind to and modulate the host-cell's plasma membrane and recruit several pivotal endocytic host proteins. Here, we present the high-resolution structure of an entry-related chlamydial effector protein, SemD. Co-crystallisation of SemD with its host binding partners demonstrates that SemD co-opts the Cdc42 binding site to activate the actin cytoskeleton regulator N-WASP, making active, GTP-bound Cdc42 superfluous. While SemD binds N-WASP much more strongly than Cdc42 does, it does not bind the Cdc42 effector protein FMNL2, indicating effector protein specificity. Furthermore, by identifying flexible and structured domains, we show that SemD can simultaneously interact with the membrane, the endocytic protein SNX9, and N-WASP. Here, we show at the structural level how a single effector protein can hijack central components of the host's endocytic system for efficient internalization. The Chlamydia pneumoniae effector SemD binds and activates the actin regulator N-WASP, structurally and functionally mimicking the endogenous N-WASP activator and small GTPase Cdc42GTP, hijacking the host cell endocytic machinery via this interaction. [ABSTRACT FROM AUTHOR]
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