Phospholipid lateral diffusion in the presence of cationic peptides as measured via 31P CODEX NMR

The effects of two cationic peptides on phospholipid lateral diffusion in binary mixtures of POPC with various anionic phospholipids were measured via 31P CODEX NMR. Large unilamellar vesicles composed of POPC/POPG (70/30 mol/mol), or POPC/DOPS (70/30 mol/mol), or POPC/TOCL (85/15 mol/mol), or POPC/...

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Published in:Biophysical chemistry 2023-04, Vol.295, p.106964-106964, Article 106964
Main Authors: Lai, Angel, Macdonald, Peter M.
Format: Article
Language:English
Subjects:
31P NMR
Center-band-only-detection-of-exchange
KL-14
Lateral diffusion
Magic angle spinning
Polylysine
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Summary:The effects of two cationic peptides on phospholipid lateral diffusion in binary mixtures of POPC with various anionic phospholipids were measured via 31P CODEX NMR. Large unilamellar vesicles composed of POPC/POPG (70/30 mol/mol), or POPC/DOPS (70/30 mol/mol), or POPC/TOCL (85/15 mol/mol), or POPC/DOPA (50/50 mol/mol) were exposed to either polylysine (pLYS, N = 134 monomers) or KL-14 (KKLL KKAKK LLKKL), a model amphipathic helical peptide, in an amount corresponding to 80% neutralization of the anionic phospholipid charge by the cationic lysine residues. In the absence of added peptide, phospholipid lateral diffusion coefficients (all measured at 10 °C) increased with increasing reduced temperature (T-Tm). The POPC/DOPA mixture was an exception to this generalization, in that lateral diffusion for both components was far slower than any other mixture investigated, an effect attributed to intermolecular hydrogen bonding. The addition of pLYS or KL-14 decreased lateral diffusion in the POPC/DOPS LUV, but had minimal effects in the POPC/POPG LUV, indicating that ease of access of the cationic peptide residues to the anionic phospholipid groups was important. Both cationic peptides produced the opposite effect in the POPC/DOPA case, in that lateral diffusion increased significantly in their presence, with KL-14 being most effective. This latter observation was interpreted in terms of the electrostatic / H-bond model proposed by Kooijman et al. [Journal of Biological Chemistry, 282:11356–11,364, 2007] to describe the mechanism of interaction between the phosphomonoester head group of PA and the tertiary amine of lysine. [Display omitted] •31P CODEX NMR measured phospholipid lateral diffusion coefficients DL in binary mixtures.•DL scaled with the reduced temperature T-Tm, except for POPC/DOPA which exhibited unusually slow diffusion.•PolyLysine slowed diffusion of DOPS and TOCL, but alleviated the “prior restraint” on DOPA,•KL-14, an amphipathic model antibacterial cationic peptide, behaved in a similar fashion,
ISSN:0301-4622
1873-4200
DOI:10.1016/j.bpc.2023.106964