Abstract
Acrylamide (ACR), a ubiquitous compound with diverse route of exposure, has been demonstrated to have detrimental effects on human and animal health. The mechanisms underlying its toxicity is multifaceted and not fully elucidated. This study aims to provide further insight into novel pathways underlying ACR toxicity by leveraging on Drosophila melanogaster as a model organism. The concentrations of acrylamide (25, 50 and 100 mg/kg) and period of exposure (7-days) used in this study was established through a concentration response curve. ACR exposure demonstrably reduced organismal viability, evidenced by decline in survival rate, offspring emergence and deficits in activity, sleep and locomotory behaviors. Using a high-resolution respirometry assay, the role of mitochondria respiratory system in ACR-mediated toxicity in the flies was investigated. Acrylamide caused dysregulation in mitochondrial bioenergetics and respiratory capacity leading to an impaired OXPHOS activity and electron transport, ultimately contributing to the pathological process of ACR-toxicity. Furthermore, ACR exacerbated apoptosis and induced oxidative stress in D. melanogaster. The up-regulation of mRNA transcription of Reaper, Debcl and Dark genes and down-regulation of DIAP1, an ubiquitylation catalyzing enzyme, suggests that ACR promotes apoptosis through disruption of caspase and pro-apoptotic protein ubiquitination and a mitochondria-dependent pathway in Drosophila melanogaster. Conclusively, this study provides valuable insights into the cellular mechanism underlying ACR-mediated toxicity. Additionally, our study reinforces the utility of D. melanogaster as a translational tool for elucidating the complex mechanisms of ACR toxicity.
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