Stability of a Melittin Pore in a Lipid Bilayer: A Molecular Dynamics Study

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Stability of a Melittin Pore in a Lipid Bilayer: A Molecular Dynamics Study

Jung-Hsin Lin and A. Baumgaertner

Forum Modellierung, Forschungszentrum, D-52425 Jülich, Germany

We have investigated the configuration and the stability of a single membrane pore bound by four melittin molecules and embeddedin a fully hydrated bilayer lipid membrane. We used moleculardynamics simulations up to 5.8 ns. It is found that the initialtetrameric configuration decays with increasing time into a stabletrimer and one monomer. This continuous transformation is accompaniedby a lateral expansion of the aqueous pore exhibiting a finalsize comparable to experimental findings. The expansion-inducedformation of an interface between the pore-lining acyl chainsof the lipids and the pore water ("hydrophobic pore") is transformedinto an energetically more favorable toroidal pore structure wheresome lipid heads are translocated from the rim to the centralpart of the interface ("hydrophilic pore"). The expansion of thepore is supported by the electrostatic repulsion among the $alpha$ -helices.It is hypothesized that pore growth, and hence cell lysis, isinduced by a melittin-mediated line tension of thepore.

Biophys J, April 2000, p. 1714-1724, Vol. 78, No. 4
© 2000 by the Biophysical Society 0006-3495/00/04/1714/11 $2.00

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