Dual system to reinforce biological containment of recombinant bacteria designed for rhizoremediation

Active biological containment (ABC) systems have been designed to control at will the survival or death of a bacterial population. These systems are based on the use of a killing gene, e,g,, a porin-inducing protein such as the one encoded by the Escherichia coli gef gene, and a regulatory circuit that controls expression of the killing gene in response to the presence or absence of environmental signals, An ABC system for recombinant microorganisms that degrade a model pollutant was designed on the basis of the Pseudomonas putida TOL plasmid meta-cleavage regulatory circuit. The system consists of a fusion of the Pm promoter to lad, whose expression is controlled by XylS with 3-methylbenzoate, and a fusion of a synthetic P-lac promoter to gef, In the presence of the model pollutant, bacterial cells survived and degraded the target compound, whereas in the absence of the aromatic carboxylic acid cell death was induced, The system had two main drawbacks: (i) the slow death of the bacterial cells in soil versus the fast killing rate in liquid cultures in laboratory assays, and (ii) the appearance of mutants, at a rate of about 10(-8) per cell and generation, that did not die after the pollutant had been exhausted. We reinforced the ABC system by including it in a Delta asd P. putida background. A P, putida Delta asd mutant is viable only in complex medium supplemented with diaminopimelic acid, methionine, lysine, and threonine, We constructed a P. putida Delta asd strain, called MCR7, with a Pm::asd fusion in the host chromosome, This strain was viable in the presence of 3-methylbenzoate because synthesis of the essential metabolites was achieved through XylS-dependent induction, In the P. putida MCR7 strain, an ABC system (Pm::lacI, xylS, P-lac::gef) was incorporated into the host chromosome to yield strain MCR8, The number of MCR8 mutants that escaped killing was below our detection limit (< 10(-9) mutants per cell and generation), The MCR8 strain survived and colonized rhizosphere soil with 3-methylbenzoate at a level similar to that of the wild-type strain, However, it disappeared in less than 20 to 25 days in soils without the pollutant, whereas an asd(+), biologically contained counterpart such as P. putida CMC4 was still detectable in soils after 100 days.