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Research Paper

Macroautophagy-dependent, intralysosomal cleavage of a betaine homocysteine methyltransferase fusion protein requires stable multimerization

Carol A. Mercer, Alagammai Kaliappan and Patrick B. Dennis

This is an open-access article

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Cargo-based assays have proven invaluable in the study of macroautophagy in yeast and mammalian cells. Proteomic analysis of autolysosomes identified the metabolic enzyme, betaine homocysteine methyltransferase (BHMT), as a potential cargo-based, end-point marker for mammalian macroautophagy. To test whether degradation of BHMT can be used to measure macroautophagic flux in mammalian cells, we created a BHMT fusion protein (GST-BHMT) that demonstrates starvation-induced, site-specific fragmentation in a variety of cell lines. Subcellular fractionation studies show that the GST-BHMT fragment co-fractionates with vesicles containing lysosomal and autolysosomal markers. Furthermore, both pharmacological inhibitors of macroautophagy and depletion of macroautophagy-specific proteins reduce accumulation of the fragment. In the course of these studies, we observed that fragmentation of GST-BHMT did not occur in forms of the reporter with truncation or point mutations that destabilize oligomerization. Since stable oligomerization of BHMT is essential for its catalytic activity, a point mutation known to ablate BHMT activity was tested. We show that accumulation of the GST-BHMT fragment is not impaired in a catalytically inactive mutant, indicating that selective proteolysis of GST-BHMT requires stable quaternary structure independent of effects on activity. Also, the loss of fragmentation observed in the oligomerization deficient mutants does not seem to be due to a defect of sequestration and lysosomal loading, suggesting that disruption of stable quaternary structure affects the ability of a lysosomal protease to cleave the newly-delivered cargo. Finally, we propose that the cargo-based GST-BHMT assay will be a valuable addition to existing macroautophagy assays in mammalian cells.

Authors

Carol A. Mercer

University of Cincinnati

Alagammai Kaliappan

University of Cincinnati

Patrick B. Dennis

University of Cincinnati

This is an open-access article

 Download PDF

If the document does not open, please right-click on the link (control-click on a Macintosh) and select the option to save the file to disk.