Combined exposure to microplastics and amitriptyline induced abnormal behavioral responses and oxidative stress in the eyes of zebrafish (Danio rerio)

Many studies have demonstrated that microplastics (MPs) can combine with various coexisting chemical pollutants, increasing their bioavailability and changing the combined toxicity to organisms. However, information on the combined effects of MPs and amitriptyline (AMI, a widely used tricyclic antidepressant) on aquatic species is still limited. In this study, we exposed zebrafish to MPs (2-& mu;m polystyrene beads, 0.44 mg/L), AMI (2.5 & mu;g/L), and their mixture for 7 days and investigated the alternation in their behaviors and ocular oxidative stress. As a result, combined exposure to MPs and AMI could significantly elevate locomotor activity, increase the frequency and duration of shoaling behavior in zebrafish, and alter their post-stimulation behaviors. Although combined exposure to MPs and AMI exhibited stronger behavioral toxicity than individual exposure, no significant interactive effects on the behavioral traits were detected, suggesting that the combined behavioral toxicity appeared to be an additive effect. However, their combined exposure to MPs or AMI significantly decreased the ocular levels of SOD, CAT, and GSH in zebrafish, with significant interaction effects on the CAT activity and GSH content. Significant correlations between some post-stimulation behavioral traits and ocular levels of SOD, CAT, and GSH in zebrafish were detected, suggesting that ocular oxidative stress induced by combined exposure to MPs and AMI may play an important role in their behavioral toxicity.

Automated summary

Many studies have shown that the combination of microplastics (MPs) and chemical pollutants can increase their toxicity to organisms. However, little is known about the combined effects of MPs and amitriptyline on aquatic species. This study found that exposure to MPs and amitriptyline can alter the behavior and ocular oxidative stress of zebrafish, with a stronger additive effect on behavioral toxicity. In addition, their combined exposure also led to decreased levels of antioxidant enzymes in the eyes of the fish.