Vibrio vulnificus has the transmembrane transcription activator ToxRS stimulating the expression of the hemolysin gene vvhA

In an attempt to dissect the virulence regulatory mechanism in Vibrio vulnificus, we tried to identify the V. cholerae transmembrane virulence regulator toxRS (toxRS(Vc)) homologs in V. vulnificus. By comparing the sequences of toxRS of V. cholerae and V. parahaemolyticus (toxRS(Vp)), we designed a degenerate primer set targeting well-conserved sequences. Using the PCR product as an authentic probe for Southern blot hybridization, a 1.6-kb BglII-HindIII fragment and a 1.2-kb HindIII fragment containing two complete open reading frames and one partial open reading frame attributable to toxR(Vv), toxS(Vv), and htpG(Vv) were cloned. ToxR(Vv) shared 55.0 and 63.0% sequence homology with ToxR(Vc) and ToxR(Vp), respectively. ToxS(Vv) was 71.5 and 65.7% homologous to ToxS(Vc) and ToxS(Vp), respectively. The amino acid sequences of ToxRS(Vv) showed transmembrane and activity domains similar to those observed in ToxRS(Vc) and ToxRS(Vp). Western blot analysis proved the expression of ToxR(Vv) in V. vulnificus. ToxRS(Vv) enhanced, in an Escherichia coli background, the expression of the V. vulnificus hemolysin gene (vvhA) fivefold. ToxRS(Vv) also activated the ToxR(Vc)-regulated ctx promoter incorporated into an E. coli chromosome. A toxR(Vv) null mutation decreased hemolysin production. The defect in hemolysin production could be complemented by a plasmid harboring the wild-type gene. The toxR(Vv) mutation also showed a reversed outer membrane protein expression profile in comparison to the isogenic wild-type strain. These results demonstrate that ToxR(Vv) may regulate the virulence expression of V. vulnificus.     

霍乱弧菌ToxS蛋白间的互作增强ToxR蛋白诱导毒力基因的表达

【目的】阐明霍乱弧菌ToxR蛋白功能调控的分子机制。【方法】利用巯基捕获(thiol-trapping)的方法分析DsbA蛋白对ToxR周质空间结构域半胱氨酸残基的氧化作用;采用定点突变的方法构建ToxR半胱氨酸突变株(ToxR_(C236/293S));利用荧光素酶基因作为报告基因分析ToxR野生型(ToxR_(wt))和半胱氨酸突变体(ToxR_(C236/293S))诱导下游基因表达的活性;通过细菌双杂交系统分析ToxR_(wt)和ToxR_(C236/293S)蛋白之间、ToxR与ToxS之间以及ToxS之间的相互作用。【结果】ToxR周质空间结构域半胱氨酸残基确实可以被DsbA蛋白氧化,且当ToxR与ToxS共表达时,ToxR诱导ctxAB转录表达的活性显著增强,且在dsbA基因缺失突变株中ToxR诱导ctxAB转录表达的活性更高;成功构建株霍乱弧菌ToxR半胱氨酸突变株(ToxR_(C236/293S)),在没有ToxS存在的条件下,ToxR_(C236/293S)诱导毒力基因表达的活性与ToxRwt相当;细菌双杂交系统分析发现当ToxR与ToxS共转录表达时,ToxS极大增强ToxR蛋白之间的互作;在dsbA基因缺失突变株中,ToxS之间的相互作用显著增强。【结论】ToxR蛋白本身的氧还状态对其诱导毒力基因表达的活性没有影响;ToxS通过增强ToxR形成二聚体的能力从而增强其诱导毒力基因的表达,而DsbA对ToxS蛋白之间的相互作用具有抑制作用,DsbA通过影响ToxS的蛋白互作从而影响ToxR蛋白的功能。本文为进一步阐明霍乱弧菌毒力基因表达调控的分子机制提供重要的理论依据。     

A ToxR homolog from Vibrio anguillarum serotype O1 regulates its own production, bile resistance, and biofilm formation

ToxR, a transmembrane regulatory protein, has been shown to respond to environmental stimuli. To better understand how the aquatic bacterium Vibrio anguillarum, a fish pathogen, responds to environmental signals that may be necessary for survival in the aquatic and fish environment, toxR and toxS from V. anguillarum serotype O1 were cloned. The deduced protein sequences were 59 and 67% identical to the Vibrio cholerae ToxR and ToxS proteins, respectively. Deletion mutations were made in each gene and functional analyses were done. Virulence analyses using a rainbow trout model showed that only the toxR mutant was slightly decreased in virulence, indicating that ToxR is not a major regulator of virulence factors. The toxR mutant but not the toxS mutant was 20% less motile than the wild type. Like many regulatory proteins, ToxR was shown to negatively regulate its own expression. Outer membrane protein (OMP) preparations from both mutants indicated that ToxR and ToxS positively regulate a 38-kDa OMP. The 38-kDa OMP was shown to be a major OMP, which cross-reacted with an antiserum to OmpU, an outer membrane porin from V. cholerae, and which has an amino terminus 75% identical to that of OmpU. ToxR and to a lesser extent ToxS enhanced resistance to bile. Bile in the growth medium increased expression of the 38-kDa OMP but did not affect expression of ToxR. Interestingly, a toxR mutant forms a better biofilm on a glass surface than the wild type, suggesting a new role for ToxR in the response to environmental stimuli.     

The ToxR protein of Vibrio cholerae forms homodimers and heterodimers.

The ToxR protein of Vibrio cholerae regulates the expression of several virulence factors that play important roles in the pathogenesis of cholera. Previous experiments with ToxR-alkaline phosphatase (ToxR-PhoA) fusion proteins suggested a model for gene regulation in which the inactive form of ToxR was a monomer and the active form of ToxR was a dimer (V. L. Miller, R. K. Taylor, and J. J. Mekalanos, Cell 48:271-279, 1987). In order to examine whether ToxR exists in a dimeric form in vivo, biochemical cross-linking analyses were carried out. Different dimeric cross-linked species were detected depending on the expression level of ToxR: when overexpressed, ToxR+ToxR homodimers and ToxR+ToxS heterodimers were detected, and when ToxR was expressed at normal levels, exclusively ToxR+ToxS heterodimers were detected. The amount of overexpression was quantitated by using ToxR-PhoA fusion proteins and was found to correspond to 2.7-fold the normal level of ToxR. The formation of both homodimeric ToxR species and heterodimeric ToxR+ToxS species is consistent with previously reported genetic data that suggested that both types of ToxR oligomeric interactions occur. However, variation in the amount of either the homodimeric or heterodimeric form detectable by this cross-linking analysis was not observed to correlate with laboratory culture conditions known to modulate ToxR activity. Thus, genetic and biochemical data indicate that ToxR is able to interact with both itself and ToxS but that these interactions may not explain mechanistically the observed changes in ToxR activity that occur in response to environmental conditions.