Transient MPTP exposure at a sensitive developmental window altered gut microbiome and led to male-biased motor and social behavioral deficits in adult zebrafish.

Zebrafish is an economical alternative model for developmental neurotoxicity (DNT) testing. DNT studies in zebrafish have been focused on acute effects; few studies explore enduring neurotoxicity in adults. More recently, gut microbiome has emerged as an important modulator between chemical exposure and neurotoxicity, rendering its necessity to be included in DNT testing. The present study used a well-known dopaminergic neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) as a model chemical to explore long-lasting neurotoxicity in adults after transient exposure during early development. We demonstrated that transient MPTP exposure at 1 μM during a sensitive developmental window of 48-96 h post-fertilization (hpf) altered gut microbiome and led to male-biased locomotion and behavioral deficits in adult fish. The locomotion deficit was manifested as hypoactivity observed in adult males under light conditions or specifically the reduction of fast swim bouts. The social behavioral deficits were characterized by the reduced number of times fish crossed the mirror zone in the mirror response assay and the reduced percent time fish spent at the area proximal to conspecific fish shoal in the social preference test. Gut microbiome analysis revealed that transient MPTP exposure during early development might render fish more susceptible to the colonization of the pathogenic Vibrio. In conclusion, our study revealed that transient MPTP exposure during early development could lead to long-lasting neurotoxicity in adult fish and cause altered gut microbiome composition in both larval and adult fish.