Login / Signup

Lipid chain-driven interaction of a lipidated Src-family kinase Lyn with the bilayer membrane.

Shinya HanashimaKanako MitoYuichi UmegawaMichio MurataHironobu Hojo
Published in: Organic & biomolecular chemistry (2022)
N -Myristoylation is a process of ubiquitous protein modification, which promotes the interaction of lipidated proteins on cell surfaces, in conjunction with reversible S -palmitoylation. We report the cooperative lipid-lipid interaction of two acyl chains of proteins, which increases the protein-membrane interaction and facilitates selective targeting of membranes containing anionic lipids. Lyn is a member of the Src family kinases distributed on the membrane surface by N -myristoyl and neighbouring S -palmitoyl chain anchors at the unique N-terminus domain. We prepared N-terminal short segments of lipidated Lyn to investigate the behaviour of each acyl chain in the lipid composition-dependent membrane interaction by solid-state nuclear magnetic resonance (NMR) analysis. Solid-state 31 P-NMR studies revealed that S -palmitoylation of N -myristoylated Lyn peptides increased the interaction between peptides and phospholipid head groups, particularly with the anionic phosphatidylserine-containing bilayers. The solid-state 2 H-NMR of Lyn peptides with a perdeutero N -myristoyl chain indicated an increase (0.6-0.8 Å) in the extent of the N -myristoyl chain in the presence of nearby S -palmitoyl chains, probably through the interaction via the acyl chains. The cooperative hydrocarbon chain interaction of the two acyl chains of Lyn increased membrane binding by extending the hydrocarbon chains deeper into the membrane interior, thereby promoting the peptide-membrane surface interaction between the cationic peptide side chains and the anionic lipid head groups. This lipid-driven mechanism by S -palmitoylation promotes the partition of the lipidated proteins to the cytoplasmic surface of the cell membranes and may be involved in recruiting Lyn at the signalling domains rich in anionic lipids.
Keyphrases
  • solid state
  • fatty acid
  • magnetic resonance
  • tyrosine kinase
  • single cell
  • amino acid
  • magnetic resonance imaging
  • binding protein
  • escherichia coli
  • computed tomography
  • mesenchymal stem cells
  • cell therapy
  • small molecule