Identification of regB, a gene required for optimal exotoxin A yields in Pseudomonas aeruginosa

Abstract

The yield of exotoxin A from Pseudomonas aeruginosa has been shown to be strain-dependent. Exotoxin A production requires the presence of the positive regulatory gene, regA. We cloned the regA genetic locus from the prototypical P. aeruginosa strain PAO1 and examined its ability to influence exotoxin A yields compared to the same region cloned from the hypertoxin-producing strain, PA103. The P. aeruginosa regA mutant strain, PA103-29, containing the PAO1 regA locus in trans produced approximately five to seven times less extracellular exotoxin A than PA103-29 containing the regA locus cloned from the hypertoxigenic strain, PA103. Nucleotide sequence analysis of the PAO1 regA locus revealed several differences, the most striking of which was the absence of a second open reading frame that was present in the analogous PA103 DNA. In addition, an amino acid substitution was found at position 144 of RegA (Thr in PAO1 and Ala in PA103). Recombinant molecules were constructed to test the contribution of each of these changes in nucleotide sequence on extracellular exotoxin A yields. The amino acid substitution in the PAO1 RegA protein was found not to affect overall exotoxin A yields. In contrast, the presence of the second open reading frame immediately downstream of the PA103 regA gene was found to influence extracellular exotoxin A yields. This open reading frame encodes a gene which we call regB. Nucleotide sequence analysis indicates that regB is 228 nucleotides in length and encodes a protein of 7527 Daltons. Our data suggest that regB is required for optimal exotoxin A production and its absence in strain PAO1 partially accounts for the difference in yield of extracellular exotoxin A between P. aeruginosa strains PAO1 and PA103.