Phase separation and clustering of an ABC transporter in Mycobacterium tuberculosis

Phase separation drives numerous cellular processes, ranging from the formation of membrane-less organelles to the cooperative assembly of signaling proteins. Features such as multivalency and intrinsic disorder that enable condensate formation are found not only in cytosolic and nuclear proteins, b...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2019-08, Vol.116 (33), p.16326-16331
Hauptverfasser: Heinkel, Florian, Abraham, Libin, Ko, Mary, Chao, Joseph, Bach, Horacio, Hui, Lok Tin, Li, Haoran, Zhu, Mang, Ling, Yeou Mei, Rogalski, Jason C., Scurll, Joshua, Bui, Jennifer M., Mayor, Thibault, Gold, Michael R., Chou, Keng C., Av-Gay, Yossef, McIntosh, Lawrence P., Gsponer, Jörg
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Sprache:eng
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Zusammenfassung:Phase separation drives numerous cellular processes, ranging from the formation of membrane-less organelles to the cooperative assembly of signaling proteins. Features such as multivalency and intrinsic disorder that enable condensate formation are found not only in cytosolic and nuclear proteins, but also in membrane-associated proteins. The ABC transporter Rv1747, which is important for Mycobacterium tuberculosis (Mtb) growth in infected hosts, has a cytoplasmic regulatory module consisting of 2 phosphothreonine-binding Forkhead-associated domains joined by an intrinsically disordered linker with multiple phospho-acceptor threonines. Here we demonstrate that the regulatory modules of Rv1747 and its homolog in Mycobacterium smegmatis form liquid-like condensates as a function of concentration and phosphorylation. The serine/threonine kinases and sole phosphatase of Mtb tune phosphorylation-enhanced phase separation and differentially colocalize with the resulting condensates. The Rv1747 regulatory module also phase-separates on supported lipid bilayers and forms dynamic foci when expressed heterologously in live yeast and M. smegmatis cells. Consistent with these observations, single-molecule localization microscopy reveals that the endogenous Mtb transporter forms higher-order clusters within the Mycobacterium membrane. Collectively, these data suggest a key role for phase separation in the function of these mycobacterial ABC transporters and their regulation via intracellular signaling.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1820683116