Abstract
Escherichia coli strains encoding the Yersinia pseudotuberculosis invasin protein are efficiently internalized by mammalian cells. Bacterial uptake into cultured cell lines became defective, however, if invasin was altered by fusion of its carboxyl terminus to E. coli alkaline phosphatase or by the addition of two hydrophobic amino acids to its carboxyl-terminal end. Probing with anti-invasin monoclonal antibodies revealed that the amino-terminal end of invasin was properly localized on the bacterial cell surface in strains encoding invasin with 2 additional amino acids, whereas the carboxyl terminus was not accessible to the monoclonal antibody. Therefore, the 2 additional amino acids interfered with the folding or orientation of the carboxyl terminus in the outer membrane. Alkylation experiments in the absence of reduction indicated that this defect was not caused by a gross inability to form a critical disulfide bond. Revertants were selected from a strain encoding this mutant protein by enriching for organisms able to enter cultured mammalian cells. The vast majority of revertants that were isolated following this enrichment contained a stop codon at the usual position found in the wild type inv gene. The most efficient of the remaining revertants resulted in the introduction of a glycine residue at the site of the wild type stop codon, presumably restoring proper conformation of the carboxyl-terminal region.
Highlights
Escherichia coli strains encoding the Yersinia pseu- encoding the inu gene properly localize the protein on the dotuberculosis invasin protein are efficientlyinternal- bacterial cell surfaceandareinternalized by a variety of ized bymammalian cells
The Inv-IL MutationsAllows the Formation of a Required Disulfide Bond-We have recently shown that a disulfide bond located between residues 907 and 982 of invasin is required for recognition of integrin receptor^.^ One possibility for defective integrin bindingby the Inv-ILderivative, is that the additional amino acids prevent proper formation of this disulfide bond
SG, pDV6-10A; Table IV) to approximately 25% the uptake We have shown that theaddition of the sequences encoding of that found with the wild type (IL -+ GE, pDV6-2E Table alkaline phosphatase or just 2 hydrophobic amino acids (IL)
Summary
0 1993 by The American Society for Biochemistry and Molecular Biology, Inc. Val. 268, No 21, Issue of July 25, pp. 15840-15846.1993 Printed in U.S.A. Tured cell lines became defective, if invasin was altered by fusion of its carboxyl terminus to E. coli alkaline phosphatase or by the addition of two hydrophobic amino acids to its carboxyl-terminal end. A variety of cultured cell lines efficiently inter- mise the ability of bacteria encoding altered invasin to bind nalize these microorganisms, and specific proteins encoded by these microorganisms have been identified that arenecessary for internalization (5, 6). These proteins are either ligands that bind the microorganism to specific receptors, as exemmammalian cells, most probably as a result of improper folding or interference witrhecognition of the integrin binding domain.
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