Abstract
Mitophagy is an autophagic process that degrades mitochondria by an intracellular engulfment that leads to their delivery into the lumen of the cell's hydrolytic compartment, such as the lysosome in animal cells or the vacuole in yeast. It is hypothesized that such processes serve a quality control function to prevent or slow the accumulation of malfunctioning mitochondria, which are thought in turn to underlie central aspects of the aging process in eukaryotic organisms. We recently identified a conserved mitochondrial protein phosphatase homolog, Aup1, which is required for efficient stationary phase mitophagy in yeast. In the present report, we demonstrate that the retrograde signaling pathway (RTG) is defective in aup1Delta mutants. In agreement with a role for Aup1 in the regulation of the RTG pathway, we find that deletion of RTG3, a transcription factor that mediates the RTG response, causes a defect in stationary phase mitophagy and that deletion of AUP1 leads to changes in Rtg3 phosphorylation patterns under these conditions. In addition, we find that mitophagic conditions lead to induction of RTG pathway target genes in an Aup1-dependent fashion. Thus, our results suggest that the function of Aup1 in mitophagy could be explained through its regulation of Rtg3-dependent transcription.
Highlights
Mitochondria play an essential role in the physiology of eukaryotic cells
Macroautophagy involves the generation of a cytosolic intermediate, an autophagosome, that fuses with the lytic compartment or with elements of the endomembrane system that flow into the lytic compartment
Mitochondrial autophagy has been linked to permeability transition pore opening [16, 17], and a sophisticated statistical analysis has indicated that defectively functioning mitochondria are selectively degraded by autophagic mechanisms [18]
Summary
To make plasmid pHAB162, the Aup reading frame, together with 500 bases of 5Ј and 500 bases of 3Ј sequences was amplified using a PCR and primers containing SacI and HindIII linkers. The PCR product (spanning nucleotides 636 –1228 in the Aup open reading frame, representing amino acids 213– 409) was digested with BamHI and NdeI and ligated into a BamHI-NdeI-. To generate plasmid pYX-GFPATG8, the GFP-ATG8 reading frame was removed from plasmid pHAB142 [34] using EcoRI and SalI and cloned into an EcoRI-SalI-digested pYX142-mtGFP [32]. To generate the R366A Aup mutant, plasmid pHAB162 was purified in single-stranded form from Escherichia coli strain CJ236 (BioRad), and complementary strand synthesis was primed using the mutagenizing oligonucleotide TGCCGCGATCTGAAGCTTCGAAGCTGCCCTTC, which encodes the amino acid sequence PRSEASKLPF instead of PRSERSKLPF as well as a silent HindIII site. To achieve statistically significant numbers of cells per viewing field in some pictures, high cell densities were achieved by sedimenting 1 ml
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