Ming Li scite author profile

As an essential organelle in the cell, the lysosome is responsible for digestion and recycling of intracellular components, storage of nutrients, and pH homeostasis. The lysosome is enclosed by a special membrane to maintain its integrity, and nutrients are transported across the membrane by numerous transporters. Despite their importance in maintaining nutrient homeostasis and regulating signaling pathways, little is known about how lysosomal membrane protein lifetimes are regulated. We identified a yeast vacuolar amino acid transporter, Ypq1, that is selectively sorted and degraded in the vacuolar lumen following lysine withdrawal. This selective degradation process requires a vacuole anchored ubiquitin ligase (VAcUL-1) complex composed of Rsp5 and Ssh4. We propose that after ubiquitination, Ypq1 is selectively sorted into an intermediate compartment. The ESCRT machinery is then recruited to sort the ubiquitinated Ypq1 into intraluminal vesicles (ILVs). Finally, the compartment fuses with the vacuole and delivers ILVs into the lumen for degradation.

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Reconstitution of protein targeting to the inner envelope membrane of chloroplasts

Schnell

2006

125

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The chloroplast envelope plays critical roles in the synthesis and regulated transport of key metabolites, including intermediates in photosynthesis and lipid metabolism. Despite this importance, the biogenesis of the envelope membranes has not been investigated in detail. To identify the determinants of protein targeting to the inner envelope membrane (IM), we investigated the targeting of the nucleus-encoded integral IM protein, atTic40. We found that pre-atTic40 is imported into chloroplasts and processed to an intermediate size (int-atTic40) before insertion into the IM. Int-atTic40 is soluble and inserts into the IM from the internal stromal compartment. We also show that atTic40 and a second IM protein, atTic110, can target and insert into isolated IM vesicles in vitro. Collectively, our experiments are consistent with a “postimport” mechanism in which the IM proteins are first imported from the cytoplasm and subsequently inserted into the IM from the stroma.

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ESCRTs function directly on the lysosome membrane to downregulate ubiquitinated lysosomal membrane proteins

et al. 2017

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The lysosome plays an important role in maintaining cellular nutrient homeostasis. Regulation of nutrient storage can occur by the ubiquitination of certain transporters that are then sorted into the lysosome lumen for degradation. To better understand the underlying mechanism of this process, we performed genetic screens to identify components of the sorting machinery required for vacuole membrane protein degradation. These screens uncovered genes that encode a ubiquitin ligase complex, components of the PtdIns 3-kinase complex, and the ESCRT machinery. We developed a novel ubiquitination system, Rapamycin-Induced Degradation (RapiDeg), to test the sorting defects caused by these mutants. These tests revealed that ubiquitinated vacuole membrane proteins recruit ESCRTs to the vacuole surface, where they mediate cargo sorting and direct cargo delivery into the vacuole lumen. Our findings demonstrate that the ESCRTs can function at both the late endosome and the vacuole membrane to mediate cargo sorting and intra-luminal vesicle formation.DOI: http://dx.doi.org/10.7554/eLife.26403.001

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An essential role for chloroplast heat shock protein 90 (Hsp90C) in protein import into chloroplasts

Inoue

Schnell

2013

Proc. Natl. Acad. Sci. U.S.A.

108

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Chloroplast heat shock protein 90 (Hsp90C) represents a highly conserved subfamily of the Hsp90 family of molecular chaperones whose function has not been defined. We identified Hsp90C as a component that interacts with import intermediates of nuclear-encoded preproteins during posttranslational import into isolated chloroplasts. Hsp90C was specifically coprecipitated with a complex of protein import components, including Tic110, Tic40, Toc75, Tic22, and the stromal chaperones, Hsp93 and Hsp70. Radicicol, an inhibitor of Hsp90 ATPase activity, reversibly inhibited the import of a variety of preproteins during translocation across the inner envelope membrane, indicating that Hsp90C functions in membrane translocation into the organelle. Hsp90C is encoded by a single gene in Arabidopsis thaliana, and insertion mutations in the Hsp90C gene are embryo lethal, indicating an essential function for the chaperone in plant viability. On the basis of these results, we propose that Hsp90C functions within a chaperone complex in the chloroplast stroma to facilitate membrane translocation during protein import into the organelle.

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Ming Li

Ubiquitin-Dependent Lysosomal Membrane Protein Sorting and Degradation

Reconstitution of protein targeting to the inner envelope membrane of chloroplasts

ESCRTs function directly on the lysosome membrane to downregulate ubiquitinated lysosomal membrane proteins

An essential role for chloroplast heat shock protein 90 (Hsp90C) in protein import into chloroplasts

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