Leptospirosis is a zoonotic disease caused by pathogenic Leptospira. However, understanding of the pathogenic mechanism of Leptospira is still elusive due to the limited number of genetic tools available for this microorganism. Currently, the reason for the genetic inaccessibility of Leptospira is still unknown. It is well known that as an acquired immunity of bacteria, Clustered Regularly Interspaced Short Palindromic Repeat‐CRISPR‐associated gene (CRISPR‐Cas) systems can help bacteria against invading mobile genetic elements. In this study, the occurrence and diversity of CRISPR‐Cas systems in 41 genomes of Leptospira strains were investigated. Three subtypes (subtype I‐B, subtype I‐C and subtype I‐E) of CRISPR‐Cas systems were identified in both pathogenic and intermediate Leptospira species but not in saprophytic species. Noteworthy, the majority of pathogenic species harbor two different types of CRISPR‐Cas systems (subtype I‐B and subtype I‐E). Furthermore, Cas2 protein of subtype I‐C in L. interrogans exhibited a metal‐dependent DNase activity in a nonspecific manner. CRISPR spacers in subtype I‐B are highly conserved within the same serovars and hypervariable across different serovars of L. interrogans. Based on the subtype I‐B CRISPR arrays, the serotypes of different L. interrogans strains were easily identified. Investigation of the origin of CRISPR spacers showed that 192 spacers (23.5%) matched to mobile genetic elements, indicating CRISPR‐Cas systems may play an important role in the defense of foreign invading DNA.
Leptospirosis is a widespread zoonotic disease caused by pathogenic Leptospira species. The most common species, Leptospira interrogans, can transfer from contaminated soil or water to the human body. It is able to survive these changing environments through sensing and responding to the changes of environmental cues. Cyclic di-GMP (c-di-GMP) is a special secondary messenger in bacteria, which can respond to the environment and regulate diverse bacterial behaviors. The c-di-GMP levels in bacterial cells are regulated by diguanylatecyclases (DGC) and phosphodiesterases (PDE), which are responsible for synthesizing or hydrolyzing c-di-GMP, respectively. In this study, distribution and phylogenetics of c-di-GMP metabolic genes among 15 leptospiral species were systematically analyzed. Bioinformatics analysis revealed that leptospiral species contain a multitude of c-di-GMP metabolic genes. C-di-GMP metabolic genes in L. interrogans strain Lai 56601 were further analyzed and the results showed that these genes have very diverse expression patterns. Most of the putative DGCs and PDEs possess enzymatic activities, as determined by riboswitch-based dual-fluorescence reporters in vivo or HPLC in vitro. Furtherer analysis of subdomains from GGDEF-containing proteins revealed that the ability to synthesize c-di-GMP was lost when the GAF domain from LA1483 and PAS domain from LA2932 were deleted, while deletion of the REC domain from LA2528 did not affect its ability to synthesize c-di-GMP. Furthermore, high temperatures generally resulted in low c-di-GMP concentrations in L. interrogans and most of the c-di-GMP metabolic genes exhibited differential temperature regulation. Also, infection of murine J774A.1 cells resulted in reduced c-di-GMP levels, while no significant change of c-di-GMP metabolic genes on transcriptional levels were observed during the infection of J774A.1 cells. Taken together, these results provide a basic platform for future studies of c-di-GMP signaling pathways in Leptospira.
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