Peptide-regulated gene depletion system developed for use in Streptococcus pneumoniae.

To facilitate the study of pneumococcal genes that are essential for viability or normal cell growth, we sought to develop a tightly regulated, titratable gene depletion system that interferes minimally with normal cellular functions. A possible candidate for such a system is the recently discovered signal transduction pathway regulating competence for natural transformation in Streptococcus thermophilus. This pathway, which is unrelated to the ComCDE pathway used for competence regulation in Streptococcus pneumoniae, has not been fully elucidated, but it is known to include a short unmodified signaling peptide, ComS*, an oligopeptide transport system, Ami, and a transcriptional activator, ComR. The transcriptional activator is thought to bind to an inverted repeat sequence termed the ECom box. We introduced the ComR protein and the ECom box into the genome of S. pneumoniae R6 and demonstrated that addition of synthetic ComS* peptide induced the transcription of a luciferase gene inserted downstream of the ECom box. To determine whether the ComRS system could be used for gene depletion studies, the licD1 gene was inserted behind the chromosomally located ECom box promoter by using the Janus cassette. Then, the native versions of licD1 and licD2 were deleted, and the resulting mutant was recovered in the presence of ComS*. Cultivation of the licD1 licD2 double mutant in the absence of ComS* gradually affected its ability to grow and propagate, demonstrating that the ComRS system functions as intended. In the present study, the ComRS system was developed for use in S. pneumoniae. In principle, however, it should work equally well in many other Gram-positive species.