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Cytochrome-P450-Induced Ordering of Microsomal Membranes Modulates Affinity for Drugs.


ABSTRACT: Although membrane environment is known to boost drug metabolism by mammalian cytochrome?P450s, the factors that stabilize the structural folding and enhance protein function are unclear. In this study, we use peptide-based lipid nanodiscs to "trap" the lipid boundaries of microsomal cytochrome?P450 2B4. We report the first evidence that CYP2B4 is able to induce the formation of raft domains in a biomimetic compound of the endoplasmic reticulum. NMR experiments were used to identify and quantitatively determine the lipids present in nanodiscs. A combination of biophysical experiments and molecular dynamics simulations revealed a sphingomyelin binding region in CYP2B4. The protein-induced lipid raft formation increased the thermal stability of P450 and dramatically altered ligand binding kinetics of the hydrophilic ligand BHT. These results unveil membrane/protein dynamics that contribute to the delicate mechanism of redox catalysis in lipid membrane.

SUBMITTER: Barnaba C 

PROVIDER: S-EPMC6289274 | biostudies-literature | 2018 Mar

REPOSITORIES: biostudies-literature

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Cytochrome-P450-Induced Ordering of Microsomal Membranes Modulates Affinity for Drugs.

Barnaba Carlo C   Sahoo Bikash Ranjan BR   Ravula Thirupathi T   Medina-Meza Ilce G IG   Im Sang-Choul SC   Anantharamaiah G M GM   Waskell Lucy L   Ramamoorthy Ayyalusamy A  

Angewandte Chemie (International ed. in English) 20180222 13


Although membrane environment is known to boost drug metabolism by mammalian cytochrome P450s, the factors that stabilize the structural folding and enhance protein function are unclear. In this study, we use peptide-based lipid nanodiscs to "trap" the lipid boundaries of microsomal cytochrome P450 2B4. We report the first evidence that CYP2B4 is able to induce the formation of raft domains in a biomimetic compound of the endoplasmic reticulum. NMR experiments were used to identify and quantitat  ...[more]

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