AI Article Synopsis

  • The study investigates the role of the hydrophobic N-terminal segment in diacylglycerol kinase ε (DGKε), an enzyme involved in the phosphatidylinositol (PI) cycle, by utilizing both computational and experimental methods.
  • Findings reveal that this segment anchors DGKε to the membrane through a transmembrane α-helix and influences its enzymatic activity by modulating the relationship between the enzyme's active site and the membrane-water interface.
  • Additionally, the research concludes that the conserved N-terminal segment significantly affects DGKε's activity and sensitivity to certain membrane properties, highlighting its importance in regulating the enzyme's function during the PI cycle.

Article Abstract

Diacylglycerol kinase ε (DGKε), an enzyme of the phosphatidylinositol (PI) cycle, bears a highly conserved hydrophobic N-terminal segment, which was proposed to anchor the enzyme into the membrane. However, the importance of this segment to the DGKε function remains to be determined. To address this question, it is here reported an in silico and in vitro combined research strategy. Capitalizing on the AlphaFold 2.0 predicted structure of human DGKε, it is shown that its hydrophobic N-terminal segment anchors it into the membrane via a transmembrane α-helix. Coarse-grained based elastic network model studies showed that a conformational change in the hydrophobic N-terminal segment determines the proximity between the active site of DGKε and the membrane-water interface, likely regulating its kinase activity. In vitro studies with a purified DGKε construct lacking the hydrophobic N-terminal segment (His-SUMO*-Δ-DGKε) corroborated the role of the N-terminus in regulating DGKε enzymatic properties. The comparison between the enzymatic properties of DGKε and His-SUMO*-Δ-DGKε showed that the conserved N-terminal segment markedly inhibits the enzyme activity and its sensitivity to membrane intrinsic negative curvature, while also playing a role in the modulation of the enzyme by phosphatidylserine. On the other hand, this segment did not strongly affect its diacylglycerol acyl chain specificity, the modulation of the enzyme by membrane morphological changes, or the activation by phosphatidic acid-rich lipid domains. Hence, these results suggest that the conservation of the hydrophobic N-terminal segment of DGKε throughout evolution guaranteed not only membrane anchorage but also an efficient and elegant manner to regulate the rate of the PI cycle.

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Source
http://dx.doi.org/10.1021/acschembio.2c00387DOI Listing

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