Skorupski K, Taylor R K
Dartmouth Medical School, Department of Microbiology, Hanover, NH 03755, USA.
Mol Microbiol. 1999 Feb;31(3):763-71. doi: 10.1046/j.1365-2958.1999.01215.x.
The expression of the ToxR virulence regulon is dependent upon the regulatory proteins ToxR/ToxS, TcpP/TcpH and ToxT. We describe here a previously unidentified gene in Vibrio cholerae, aphA (activator of tcpP and tcpH expression), which is required for the transcription of the tcpPH operon. Under conditions normally optimal for virulence gene expression, an in frame aphA deletion decreased the expression of a cholera toxin promoter fusion (ctx-lacZ) and prevented the production of the toxin co-regulated pilus (TCP). Plasmids producing ToxT or TcpP/H, but not ToxR, restored ctx-lacZ expression and TCP production in the delta aphA strain, suggesting that the mutation interferes with toxT expression by influencing the transcription of tcpPH. Indeed, the expression of a chromosomal tcpP-lacZ fusion was reduced in the delta aphA mutant and increased in both V. cholerae and Escherichia coli by introducing aphA expressed from an inducible promoter. These results support a model in which AphA functions at a previously unknown step in the ToxR virulence cascade to activate the transcription of tcpPH. TcpP/TcpH, together with ToxR/ToxS, then activate the expression of toxT, resulting ultimately in the production of virulence factors such as cholera toxin and TCP.
ToxR毒力调节子的表达取决于调节蛋白ToxR/ToxS、TcpP/TcpH和ToxT。我们在此描述霍乱弧菌中一个以前未被鉴定的基因aphA(tcpP和tcpH表达的激活因子),它是tcpPH操纵子转录所必需的。在通常对毒力基因表达最适宜的条件下,aphA的框内缺失降低了霍乱毒素启动子融合体(ctx-lacZ)的表达,并阻止了毒素共调节菌毛(TCP)的产生。产生ToxT或TcpP/H而非ToxR的质粒恢复了ΔaphA菌株中ctx-lacZ的表达和TCP的产生,这表明该突变通过影响tcpPH的转录干扰了toxT的表达。实际上,染色体tcpP-lacZ融合体的表达在ΔaphA突变体中降低,而通过引入由诱导型启动子表达的aphA,在霍乱弧菌和大肠杆菌中均增加。这些结果支持了一个模型,即AphA在ToxR毒力级联反应中一个以前未知的步骤发挥作用,以激活tcpPH的转录。然后,TcpP/TcpH与ToxR/ToxS一起激活toxT的表达,最终导致霍乱毒素和TCP等毒力因子的产生。