Landis L, Xu J, Johnson R C
Department of Biological Chemistry, School of Medicine, University of California, Los Angeles, Los Angeles, California 90095-1737, USA.
Genes Dev. 1999 Dec 1;13(23):3081-91. doi: 10.1101/gad.13.23.3081.
Transcription of the P1 promoter of the Escherichia coli proP gene, which encodes a transporter of osmoprotectants, is strongly induced by a shift to hyperosmotic media. Unlike most other osmotically regulated promoters, the induction occurs for a brief period of time, corresponding to the replacement of intracellular K(+) glutamate with osmoprotecting compounds. This burst of proP transcription is correlated with the osmolarity-dependent binding of the cAMP receptor protein CRP to a site within the proP P1 promoter. We show that CRP-cAMP functions as an osmotically sensitive repressor of proP P1 transcription in vitro. Binding of CRP to the proP promoter in vivo is transiently destabilized after a hyperosmotic shift with kinetics that correspond to the derepression of transcription, whereas Fis and Lac repressor binding is not osmotically sensitive. Similar osmotic regulation of proP P1 transcription by the CRP* mutant implies that binding of cAMP is not responsible for the unusual osmotic sensitivity of CRP activity. Osmotic regulation of CRP activity is not limited to proP. Activation of the lac promoter by CRP is also transiently inhibited after an osmotic upshift, as is the binding of CRP to the galdelta4P1 promoter. These findings suggest that CRP functions in certain contexts to regulate gene expression in response to osmotic changes, in addition to its role in catabolite control.
大肠杆菌proP基因的P1启动子转录可编码一种渗透保护剂转运蛋白,向高渗培养基转移时该转录会被强烈诱导。与大多数其他受渗透压调节的启动子不同,这种诱导只在短时间内发生,这与细胞内K(+)谷氨酸被渗透保护化合物取代相对应。proP转录的这种爆发与cAMP受体蛋白CRP以渗透压依赖性方式结合到proP P1启动子内的一个位点相关。我们证明,在体外,CRP-cAMP作为proP P1转录的渗透压敏感阻遏物发挥作用。高渗转移后,CRP在体内与proP启动子的结合会短暂地不稳定,其动力学与转录的去阻遏相对应,而Fis和Lac阻遏物的结合对渗透压不敏感。CRP*突变体对proP P1转录有类似的渗透压调节作用,这意味着cAMP的结合并非CRP活性具有异常渗透压敏感性的原因。CRP活性的渗透压调节并不局限于proP。渗透压升高后,CRP对lac启动子的激活也会被短暂抑制,CRP与galdelta4P1启动子的结合也是如此。这些发现表明,除了在分解代谢物控制中的作用外,CRP在某些情况下还可响应渗透压变化来调节基因表达。