Characterization of Tgl2, a putative lipase in yeast mitochondria

Abstract

AbstractMitochondria derive the majority of their lipids from other organelles through contact sites. These lipids, primarily phosphoglycerolipids, are the main components of mitochondrial membranes. In the cell, neutral lipids like triacylglycerides (TAGs) are stored in lipid droplets, playing an important role in maintaining cellular health. Enzymes like lipases mobilize these TAGs according to cellular needs. Neutral lipids have not yet been reported to play an important role in mitochondria so the presence of a putative TAG lipase – Tgl2, in yeast mitochondria is surprising. Moreover,TGL2andMCP2, a high-copy suppressor for ERMES deficient cells, display genetic interactions suggesting a potential link to lipid metabolism. In this study, we characterize in detail Tgl2. We show that Tgl2 forms dimers through intermolecular disulfide bridges and a cysteine-dependent high molecular weight complex. Furthermore, we could identify the lipase motif and catalytic triad of Tgl2 throughin silicocomparison with other lipases and mutated the catalytically active residues accordingly. Both mutants failed to rescue the growth phenotype ofmcp2Δ/tgl2Δ double deletion strain suggesting that the residues are indeed essential for the protein’s function. Additionally, we discovered that the catalytically active aspartate residue is important for protein stability. Steady state level analyses with non-functional variants of Tgl2 led to the identification of Yme1 as the protease responsible for its quality control. Finally, we provide evidence that the overall increase in TAGs in cells lacking Mcp2 and Tgl2 originates from the mitochondria. Collectively, our study provides new insights into a key player in mitochondrial lipid homeostasis.