We showed previously that large numbers of T lymphocytes accumulate within a few days in the kidneys of rats with ascending pyelonephritis induced with Escherichia coli or Pseudomonas aeruginosa. CD4+ T cells propagated from the lesions exhibited MHC-restricted proliferative responses to formalin-fixed bacteria of the species used to induce infection. In the present study we investigated further the nature of the antigens responsible for the T cell proliferation and studied the ability of different bacterial strains and species to produce proliferative responses. We found that heat-killed bacteria were more stimulatory than formalin-fixed bacteria, and that soluble supernatants of heat-killed organism were also effective. The stimulatory effects of supernatants were destroyed by trypsin and the responses were MHC-restricted. Twelve different E. coli strains, with or without characteristics of uropathogenicity in humans, were all highly stimulatory to T cells derived from a kidney infected with a single E. coli strain. Strains of Klebsiella pneumoniae, Enterobacter aerogenes, and Serratia marcescens--species of Enterobacteriaceae closely related to E. coli--were also stimulatory, whereas more distantly related bacteria--Proteus, Morganella, and P. aeruginosa--were not. T cells propagated from kidneys infected with P. aeruginosa responded to supernatants of this organism, but not to E. coli supernatants. We conclude that a protein antigen (or antigens) shared by strains of E. coli and related Enterobacteriaceae, but not by other gram-negative bacteria, produce MHC-restricted proliferative responses of CD4+ T cells that infiltrate rat kidneys infected with E. coli.