Enterobacteria such as Escherichia coli are able to survive under various environments within host animals by changes of the expression pattern of its genome. The selective expression of genes in its genome takes place by controlling the promoter recognition properties of RNA polymerase by protein-protein interplays with transcription factors. In this review, I describe the regulatory network formed by the metal-sensing transcription factors in E. coli. Comprehensive analyses identify the set of regulation targets for a total of 13 metal-response transcription factors, indicating that nine species of transcription factors are local regulators while four species of transcription factors are global regulators. The signal transduction pathways for these metal-response regulons show not only the complex cross-talks but also the hierarchic multi-regulatory network. This regulatory network seems to play a role for E. coli survival to colonize in a large intestine within host animals.