Abstract
Different classes of insecticide compounds have been employed to control insects and mosquitoes; Pyrethroids are one of the most common used in both urban and rural household environments. This study investigated the effects of exposure of two doses of commercial transfluthrin-based insecticide (T-BI) on behavior (body bends, pharyngeal pumping rate, and feeding attributes) and biochemical biomarkers (AChE, PolyQ40 aggregations, HSP, antioxidative SOD, CTL, and GST) following three different protocols (transgenerational, neonatal, and lifespan) in Caenorhabditis elegans model system. The relative calculated dose (RCD) and relative calculated half dose (RCHD) of T-BI were compared with those of the control (water). T-BI reduced the health span of worms treated during their whole life and changed biochemical and behavioral patterns due to progenitors' uterine (transgenerational) and neonatal exposures. It was inferred that the effects of T-BI are transgenerational and persistent and can be harmful to non-target species, including humans. In addition, our findings highlight that T-BI contact by progenitors accelerates the establishment of Huntington's disease and causes a cholinergic outbreak in offspring adulthood.
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