Proteus mirabilis is an important uropathogen. Copper is an essential trace element for all lives but lethal upon excess. During UTI, the urine copper level rises, and copper exerts bacterial killing in macrophages. Previously we found copper affects P. mirabilis virulence factors such as urease activity and biofilm formation. We then performed transposon mutagenesis to investigate how P. mirabilis deploys copper detoxification system to maintain copper homeostasis. We isolated several mutants exhibited increased copper susceptibility. An envC mutant displaying increased copper susceptibility was identified. The envC gene, encoding a murein hydrolase activator, has been found to be involved in cell division and membrane integrity maintenance in E. coli and Salmonella. We found P. mirabilis envC mutant cells are longer than the wild-type and swarming and swimming motility ability was significantly decreased in the mutant. The mutant also exhibited impaired survival on exposure to oxidative stress and significantly reduced ability to adhere and invade urothelial cells. Accordingly, a defect in mouse colonization of the envC mutant was observed. In summary, EnvC participates in copper tolerance and virulence factor expression of P. mirabilis. This is the first study to investigate the role of envC gene in uropathogenic P. mirabilis. Our results suggest that the P. mirabilis EnvC, participating in cell wall development, may influence the cell surface properties, thereby altering the cell envelope-associated phenotypes including membrane composition, motility, survival in the stressful environment, adhesion and invasion and also colonization in mice.