Sarin is an organophosphorus (OP) chemical warfare agent which irreversibly inhibits acetylcholinesterase. Acute toxicity after sarin exposure is because of hyper activation of the nicotinic and muscarinic receptor. Survivors of sarin exposure often develop long-term neuropathology referred as OP ester-induced chronic neurotoxicity. However, the exact mechanism of chronic neurotoxicity is yet unknown. We studied proteomic changes in rat brain regions after 0.5 LD50 dose of sarin and investigated some milestone changes associated with long-term CNS injury. We used two-dimensional gel electrophoresis/mass spectrometry approach to identify early proteomic changes and traced expression of selected proteins for longer time points. This study shows changes in chaperone function, endoplasmic reticulum stress, and defect in cytoskeleton functions at earlier stages. Predictive interaction analysis demonstrated putative role of Parkinson's disease-related proteins after sarin exposure. Our results clearly indicated neurodegenerative changes which started after 2.5 h and showed prominence after 3-month postexposure. The study also unmasks changes in proteins related to movement and cognitive function. The markers for astrocytosis (GFAP) and neurodegenerative changes (alpha-synuclein and amyloid precursor protein) exhibited altered expression in brain. This is the first proteomic study among survivors of sarin exposure in animal model. Some of the early changes, including those involved in neurodegeneration, movement, and cognitive function, defects in chaperone function and cytoskeleton, were shown to persist for a longer period. The study provides a preliminary framework for further validation of major mechanisms of sarin toxicity is suggested here and opens new avenues for elucidation of therapeutic intervention.
Introduction
Sarin is a highly toxic organophosphorus nerve agent that irreversibly inhibits neuronal enzyme acetylcholinesterase. In the prevailing scenario, it is of paramount importance to develop early diagnosis and medical countermeasures for sarin exposure. A deeper understanding of the molecular mechanism of sarin intoxication and perturbations in the associated cellular processes is likely to provide valuable clues for the elucidation of diagnostic markers and therapeutic targets for sarin exposure.
Methods
Present study, uncovered the changes in phosphorylation patterns of multiple proteins in different rat brain regions after sarin intoxication using 2-DE/MS approach. It provided a holistic view of the phosphorylation-mediated changes in the cellular proteome and highlighted various signaling and response pathways affected at an early time point of sarin intoxication.
Results
We found total 22 proteins in the cortex, 25 proteins in the corpus striatum, and 17 proteins in the hippocampus, showed ≥1.5 fold changes (hyper- or hypo- phosphorylated) with respect to control, either at 2.5 h or 1 d after sarin exposure. These results indicated the differential expression of phosphoproteins involved in protein folding in the endoplasmic reticulum, carbon metabolism, metabolic function, and energy metabolism.
Conclusion
Four candidates (protein disulfide-isomerase A3, heat shock cognate 71 kDa protein, alpha-enolase, and creatine kinase B-type), hyperphosphorylated in all three brain regions, can be further studied to understand the molecular mechanism behind neurodegenerative changes mediated by sarin exposure. The study sheds light on major pathogenic processes initiated during sarin intoxication and provides putative diagnostic markers/therapeutic targets for further validation.
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