Granulomatous inflammatory responses are elicited in the liver of PD-1 knockout mice byde novogenome mutagenesis

Abstract

AbstractAimsprogrammed death-1 (PD-1) is a negative regulator of immune responses. Upon deletion of PD-1 in mice, symptoms of autoimmunity developed only after they got old. In a model experiment in cancer immunotherapy, PD-1 was shown to prevent cytotoxic T lymphocytes from attacking cancer cells that expressed neoantigens derived from genome mutations. Furthermore, the larger number of genome mutations in cancer cells led to the more robust anti-tumor immune responses after the PD-1 blockade. In order to understand the common molecular mechanisms underlying these findings, we hypothesize that we might have acquired PD-1 during evolution in order to avoid/suppress autoimmune reactions against neoantigens derived from mutations in the genome of aged individuals. Main methods: to test the hypothesis, we introduced random mutations into the genome of young PD-1-/-and PD-1+/+mice. We employed two different procedures of random mutagenesis: administration of a potent chemical mutagen N-ethyl-N-nitrosourea (ENU) into the peritoneal cavity of mice and deletion ofMSH2, which is essential for the mismatch-repair activity in the nucleus and, therefore, for the suppression of accumulation of random mutations in the genome.Key findingswe observed granulomatous inflammatory changes in the liver of the ENU-treated PD-1 knockout (KO) mice, but not in the wild-type (WT) counterparts. Such lesions also developed in the PD-1/MSH2 double KO mice, but not in the MSH2 single KO mice. Significance: the results we obtained support our hypothesis: PD-1 probably functions to avoid/suppress inflammatory responses against neoantigens derived from genome mutations in aged individuals.