Recruitment and organization of ESCRT-0 and ubiquitinated cargo via condensation

The general mechanisms by which ESCRTs (Endosomal Sorting Complexes Required for Transport) are specifically recruited to various membranes, and how ESCRT subunits are spatially organized remain central questions in cell biology. At the endosome and lysosomes, ubiquitination of membrane proteins tri...

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Veröffentlicht in:	Science advances 2022-04, Vol.8 (13), p.eabm5149-eabm5149
Hauptverfasser:	Banjade, Sudeep, Zhu, Lu, Jorgensen, Jeffrey R, Suzuki, Sho W, Emr, Scott D
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Sprache:	eng
Schlagworte:	Biomedicine and Life Sciences Cell Biology SciAdv r-articles
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container_title	Science advances
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creator	Banjade, Sudeep Zhu, Lu Jorgensen, Jeffrey R Suzuki, Sho W Emr, Scott D
description	The general mechanisms by which ESCRTs (Endosomal Sorting Complexes Required for Transport) are specifically recruited to various membranes, and how ESCRT subunits are spatially organized remain central questions in cell biology. At the endosome and lysosomes, ubiquitination of membrane proteins triggers ESCRT-mediated substrate recognition and degradation. Using the yeast lysosome/vacuole, we define the principles by which substrate engagement by ESCRTs occurs at this organelle. We find that multivalent interactions between ESCRT-0 and polyubiquitin are critical for substrate recognition at yeast vacuoles, with a lower-valency requirement for cargo engagement at endosomes. Direct recruitment of ESCRT-0 induces dynamic foci on the vacuole membrane and forms fluid condensates in vitro with polyubiquitin. We propose that self-assembly of early ESCRTs induces condensation, an initial step in ESCRT assembly/nucleation at membranes. This property can be tuned specifically at various organelles by modulating the number of binding interactions.
doi_str_mv	10.1126/sciadv.abm5149
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subjects	Biomedicine and Life Sciences Cell Biology SciAdv r-articles
title	Recruitment and organization of ESCRT-0 and ubiquitinated cargo via condensation
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