Strain-specific differences in toxT expression and virulence gene activation in Vibrio cholerae
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The transcriptional activator ToxT is a key regulator of Vibrio cholerae virulence, controlling the expression of cholera toxin (CT) and the toxin co-regulated pilus (TCP). Insights into the regulation and function of toxT have largely come from studies on the classical biotype strain O395, which exhibits robust toxT expression. However, toxT expression is not fully consistent across V. cholerae strains. Here, we show that toxT transcription and protein production differ significantly among strains, particularly in El Tor biotype, which exhibit allele-dependent regulatory constraints. Using qRT-PCR and Western blotting, we demonstrate that alternative toxT alleles confer distinct transcriptional activator functions across El Tor biotype strains. Notably, IB5230, a pandemic El Tor strain, exhibits enhanced toxT and virulence gene expression even at 37°C, suggesting a potential adaptation for increased pathogenicity. Our results suggest that toxT autoregulatory feedback plays a more critical role in virulence gene activation than previously recognized. This study underscores previously unrecognized complexity in toxT regulation, emphasizing the need to reassess virulence control mechanisms in epidemic and emerging V. cholerae strains. Understanding these strain-specific differences is essential for refining models of cholera pathogenesis.
Author Summary
Cholera is a severe diarrheal disease caused by the bacterium Vibrio cholerae , which continues to pose a major threat to global health. The ability of V. cholerae to cause disease depends on the expression of two key virulence factors—cholera toxin (CT) and the toxin-coregulated pilus(TCP)— controlled by the transcriptional activator ToxT. While much of our understanding of ToxT regulation is based on classical biotype strains, most recent cholera outbreaks have been driven by El Tor biotype strains. In this study, we demonstrate that toxT expression and its ability to activate virulence genes vary markedly across V. cholerae strains, depending on both the specific toxT allele and the genetic background. Using isogenic strains engineered to express different toxT alleles, we show that some alleles are transcriptionally silent in certain El Tor strains while others are active, despite having similar functional capabilities when expressed. Notably, a hypervirulent strain linked to the Haitian cholera outbreak maintained high toxT expression even at human body temperature, hinting at possible adaptive mechanisms for enhanced pathogenicity. Our findings suggest that virulence regulation in V. cholerae may be more variable than previously recognized, highlighting strain- and allele-specific differences in toxT expression. Understanding these strain- and allele-specific differences in virulence gene regulation is crucial for improving models of cholera pathogenesis and could inform the development of more effective interventions and vaccines against this evolving pathogen.
