Leptospirosis is a global zoonotic disease affecting humans and livestock species. Bacterin vaccines lack cross protection between serogroups, and include multiple serovars propagated at 29 °C. Recent work demonstrated substantial variation in the transcriptome of identical species and serovars of Leptospira. Here, substantial differences in protein abundance profiles were identified in Leptospira borgpetersenii serovar Hardjo; strain HB203, which was isolated in the 1980s, compared to newer strains TC129 and TC273 isolated in 2016, and whether they were propagated at the routine temperature of 29 °C, compared to 37 °C which more closely emulates host infection. While 388 and 385 significantly differentially expressed (DE) proteins (FDR of 0.01) were identified in HB203 versus TC129, and HB203 versus TC273 when propagated at 29 °C respectively, only 66 and 4 DE proteins were identified in HB203 versus TC129, and HB203 versus TC273 when propagated at 37 °C respectively. Within each strain comparing temperatures, HB203 had 524 significantly DE proteins, TC129 had 347 DE proteins, and TC273 had 569 DE proteins. Data are available via ProteomeXchange with identifier PXD032831. Results highlight significant differential protein expression among identical serovars of L. borgpetersenii suggesting that bacterin vaccine design can benefit from consideration of strains employed and effects of temperature on growth. SignificanceLeptospirosis is a zoonotic disease caused by spirochete bacteria of the genus Leptospira. While leptospirosis affects over one million people per year, symptoms range vastly in severity from completely asymptomatic, to flu-like, to multi-organ failure and death in severe cases. Incidental hosts become infected after encountering pathogens directly from contact with another host, including domestic or wildlife animals, or indirectly from contaminated environments. Though animal vaccines exist, they lack cross protection across serogroups, and instead rely on inclusion of multiple carefully selected serovars from laboratory strains prepared at ~29 °C. Recent interest in gene expression at the Leptospira strain level, along with a newly achieved culture temperature of 37 °C (which more closely resembles host body temperature), led us to investigate the proteomic profiles of an older, established challenge strain HB203 in comparison to TC129 and TC273, two strains isolated in 2016 from abattoir cattle in the central United States. Herein, we identify substantial proteomic differences not only between strains of the same species and serovar, but notably between growth temperatures, collectively suggesting that bacterin vaccine composition may benefit from investigating strain selection and the temperature employed for growth of the bacteria used in bacterin preparation.
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