Title: Expression of truncated forms of liver microsomal P450 cytochromes 2B4 and 2E1 in Escherichia coli: influence of NH2-terminal region on localization in cytosol and membranes.

Authors: Pernecky, S J; Larson, J R; Philpot, R M; Coon, M J

Published In Proc Natl Acad Sci U S A, (1993 Apr 01)

Abstract: The currently accepted model for the membrane topology of microsomal cytochrome P450 is that of a largely cytoplasmic domain bound by only one or two transmembrane segments at the NH2 terminus. However, as we have reported previously, P450 2E1 lacking the hydrophobic NH2-terminal signal peptide, like the full-length protein, is located in the inner cell membrane when expressed in Escherichia coli and is active with typical substrates. In the present study, additional variants of alcohol-inducible P450 2E1 as well as truncated forms of phenobarbital-inducible P450 2B4 were similarly expressed to determine the influence of the NH2-terminal region on the membrane-binding properties. After deletion of S1 (the NH2-terminal hydrophobic segment), or both S1 and L1 (the following hydrophilic region, expected to be lumenal or cytosolic), one-third of the resulting P450 2B4 (delta 2-20) and 2B4 (delta 2-27) remained membrane bound. Furthermore, the idea that the first two hydrophobic segments are required for attachment by a hairpin loop is not supported by the finding that after deletion of the S1, L1, and S2 segments about half of the P450 2E1 (delta 3-48) remained membrane bound. Since Na2CO3 treatment of the membrane fraction had no significant effect, the findings are apparently not attributable to a loose attachment or occlusion of the truncated proteins. The replacement of neutral amino acids by positively charged residues in positions 3 and 8 of P450 2E1 (delta 3-29) changed the amount in the cytosol from 35% to 50%, and the deletion of residues 2-20 or 2-27 from P450 2B4, which resulted in positive charges occurring in the NH2-terminal region, changed the amount in the cytosol from 27% to 67%. We conclude that alterations in the NH2-terminal region can change the location of the cytochrome from largely membranous to largely cytosolic and that the first two hydrophobic segments are not uniquely involved in membrane attachment.

PubMed ID: 8464872

MeSH Terms: No MeSH terms associated with this publication