Cloning of a phosphate-regulated hemolysin gene (phospholipase C) from Pseudomonas aeruginosa.

Phospholipase C (heat-labile hemolysin) of Pseudomonas aeruginosa is a phosphate (P(i))-regulated extracellular protein which may be a significant virulence factor of this organism. The gene for this hemolytic enzyme was cloned on a 4.1-megadalton (Mdal) fragment from a BamHI digest of P. aeruginosa PAO1 genomic DNA and was inserted into the BamHI sites of the multicopy Escherichia coli(pBR322) and P. aeruginosa(pMW79) vectors. The E. coli and P. aeruginosa recombinant plasmids were designated pGV26 and pVB81, respectively. A restriction map of the 4.1-Mdal fragment from pGV26 was constructed, using double and single digestions with BamHI and EcoRI and several different restriction enzymes. Based on information from this map, a 2.4-Mdal BamHI/BglII fragment containing the gene for phospholipase C was subcloned to pBR322. The hybrid plasmids pGV26 and pVB81 direct the synthesis of enzymatically active phospholipase C, which is also hemolytic. The plasmid-directed synthesis of phospholipase C in E. coli or P. aeruginosa is not repressible by P(i) as is the chromosomally directed synthesis in P. aeruginosa. Data are presented which suggest that the synthesis of phospholipase C from pGV26 and pVB81 is directed from the tetracycline resistance gene promoter. The level of enzyme activity produced by E. coli(pGV26) is slightly higher than the levels produced by P. aeruginosa(pMW79) under repressed conditions. In contrast, the levels produced by P. aeruginosa(pVB81) are at least 600-fold higher than the levels produced by P. aeruginosa(pMW79) under repressed conditions and approximately 20-fold higher than those produced by P. aeruginosa(pMW79) under derepressed conditions. The majority (85%) of the enzyme produced by E. coli(pGV26) remained cell associated, whereas >95% of the enzyme produced by P. aeruginosa(pVB81) was extracellular. Analysis of extracellular proteins from cultures of P. aeruginosa(pMW79) and P. aeruginosa(pVB81) by high-performance liquid chromotography and sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that the phospholipase C gene was cloned intact, and it is likely that several additional genes were cloned on the 4.1-Mdal fragment of DNA. It was also found that some of these genes encode proteins which are the same molecular weight as some previously described P(i)-repressible proteins of P. aeruginosa. The existence of a P(i) regulon of P. aeruginosa is proposed. It is likely that one of these genes also regulates the level of pyocyanin production by P. aeruginosa and that one or more play a role in transport or binding of P(i). The availability of the hybrid plasmids described herein will be useful in further studies on the role of this hemolysin in the virulence of P. aeruginosa and in the study of the genetics and physiology of P(i)-regulated proteins.