Translational control of exported proteins that results from OmpC porin overexpression

Abstract

The regulation of synthesis and export of outer membrane proteins of Escherichia coli was examined by overexpressing ompC in multicopy either from its own promoter or from an inducible promoter in an expression vector. Overexpression of OmpC protein resulted in a nearly complete inhibition of synthesis of the OmpA and LamB outer membrane proteins but had no effect on synthesis of the periplasmic maltose-binding protein. Immunoprecipitation of labeled proteins showed no evidence of accumulation of uncleaved precursor forms of OmpA or maltose-binding protein following induction of OmpC overexpression. The inhibition of OmpA and LamB was tightly coupled to OmpC overexpression and occurred very rapidly, reaching a high level within 2 min after induction. OmpC overexpression did not cause a significant decrease in expression of a LamB-LacZ hybrid protein produced from a lamB-lacZ fusion in which the fusion joint was at the second amino acid of the LamB signal sequence. There was no significant decrease in rate of synthesis of ompA mRNA as measured by filter hybridization of pulse-labeled RNA. These results indicate that the inhibition is at the level of translation. We propose that cells are able to monitor expression of exported proteins by sensing occupancy of some limiting component in the export machinery and use this to regulate translation of these proteins.