Abstract
ABSTRACTPhosphatidic acid phosphatases are involved in the biosynthesis of phospholipids and triacylglycerol, and also act as transcriptional regulators. Studies to ascertain their role in lipid metabolism and membrane biogenesis are restricted to Opisthokonta and Archaeplastida. Here, we report the role of phosphatidate phosphatase (PAH) in Tetrahymena thermophila, belonging to the Alveolata clade. We identified two PAH homologs in Tetrahymena, TtPAH1 and TtPAH2. Loss of function of TtPAH1 results in reduced lipid droplet number and an increase in endoplasmic reticulum (ER) content. It also results in more ER sheet structure as compared to wild-type Tetrahymena. Surprisingly, we did not observe a visible defect in the nuclear morphology of the ΔTtpah1 mutant. TtPAH1 rescued all known defects in the yeast pah1Δ strain and is conserved functionally between Tetrahymena and yeast. The homologous gene derived from Trypanosoma also rescued the defects of the yeast pah1Δ strain. Our results indicate that PAH, previously known to be conserved among Opisthokonts, is also present in a set of distant lineages. Thus, a phosphatase cascade is evolutionarily conserved and is functionally interchangeable across eukaryotic lineages.
Highlights
Eukaryotic cell organelles are enclosed by a membrane composed of the lipid bilayer and proteins
We did not observe a visible defect in nuclear morphology of ∆Ttpah1 mutant
TtPAH1 localizes on ER and encodes functional phosphatidate phosphatase We focused our study on TtPAH1
Summary
Eukaryotic cell organelles are enclosed by a membrane composed of the lipid bilayer and proteins. TtPAH1 regulates lipid droplet biogenesis and ER morphology in Tetrahymena and functionally replaces yeast PAH1. Deletion of PAH1 in yeast causes aberrant expansion of nuclear/ER membrane, increased phospholipid synthesis, decreased TAG level and lipid droplet number, and slow growth (Siniossoglou et al, 1998; Adeyo et al, 2011).
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