Chlamydia suis displays high transformation capacity with complete cloning vector integration into the chromosomal rrn-nqrF plasticity zone

Chlamydia, comprising several human and zoonotic pathogens, is a genus of the conserved bacterial phylum Chlamydiota. Their obligate intracellular niche serves as a barrier for natural genetic exchange via horizontal gene transfer (HGT), and further limits the development and application of genetic tools. To date, the only example for recent inter-phylum HGT among the Chlamydiota is tetracycline resistance in the potentially zoonotic species Chlamydia suis, a close phylogenetic relative of human C. trachomatis, which causes bacterial sexually transmitted infections and ocular trachoma. Tetracycline resistance in porcine C. suis strains has been described worldwide and is always part of a genomic island dividing invasin (inv), located within a chromosomal region between the rRNA operon (rrn) and the nqrF reductase. Here, we aimed to expand the still modest number of available genetic manipulation systems for Chlamydia by generating allele-replacement and integration vectors for C. suis. These vectors comprised homologous C. suis sequences of the chromosomal region of interest, an E. coli origin of replication (ori) and selection markers but lacked the native chlamydial plasmids or its ori. We first recovered allele-replacement mutants using a vector that targets the tryptophan (trp) operon of C. suis. The vector was further successfully maintained as a free plasmid in C. trachomatis without allele replacement, suggesting complex plasmid dynamics in the absence of a chlamydial ori. Moreover, we showed that the hypervariable rrn-nqrF intergenic region of C. suis is highly susceptible to transformation, resulting in complete vector integration upstream of nqrF without interruption of the targeted inv gene.

Automated summary

Chlamydia, a genus of bacteria, has obligate intracellular lifestyle which limits genetic exchange. The only known example of horizontal gene transfer (HGT) between different phyla in Chlamydia is the tetracycline resistance found in Chlamydia suis.