Schiff Base Oxime Derivatives Reactivate Chlorpyrifos-induced Acetylcholinesterase Inhibition

M. Katagi, Jennifer Fernandes, Shivalingrao MamleDesai, M. Sujatha, A. Rekha, Girish Bolakatti
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引用次数: 1

Abstract

Background: The biological effects of organophosphorus (OP) compounds are connected with the irreversible inhibition of acetylcholinesterase (AChE), an important neuromediator acetylcholine (ACh) splitting enzyme in the human body at the synaptic clefts. Due to this inhibition, AChE is unable to fulfil its physiological function resulting in the accumulation of ACh, which, in turn over stimulates the parasympathetic nerve receptors, and causes fatal cholinergic crisis. Objective: The objective of the study was to synthesize a series of Schiff base oximes and to assess their evaluating for their in vitro reactivating potency against chlorpyrifos inhibited AChE. Methods: The amino group of 4-amino acetophenone exploited by treating with substituted benzaldehyde in the presence of glacial acetic acid to form Schiff base (1a-1f). The titled compounds (2a-2f) were prepared by treating Schiff base with hydroxylamine hydrochloride in the presence of alcohol. Through structural and spectral analysis, the structure of compounds was confirmed. The synthesized compounds were evaluated for their reactivation efficacy against chlorpyrifos-inhibited rat brain AChE by Ellman's method. Results: The pralidoxime (2-PAM) was potent reactivation against chlorpyrifos-inhibited AChE at the concentration tested (0.001 M). In this case, the compounds 2a (40.4%, 60 min) and 2d (37.9%, 60 min) showed promising reactivation as compared to 2-PAM (40.6%, 60min) against chlorpyrifos-inhibited AChE. Conclusion: Compounds having chloro (2a) and nitro (2d) substitution on 4th position gave good activity against chlorpyrifos-inhibited AChE. Moreover, these Schiff base oximes seem to be very promising because of their sufficient reactivation strength at lower concentration (10-3 M).
希夫碱肟衍生物重新激活毒死蜱诱导的乙酰胆碱酯酶抑制
背景:有机磷化合物的生物学效应与乙酰胆碱酯酶(AChE)在突触间隙处的不可逆抑制有关。AChE是人体重要的乙酰胆碱分裂酶的神经介质。由于这种抑制作用,乙酰胆碱能无法发挥其生理功能,导致乙酰胆碱能积累,进而刺激副交感神经受体,引起致命的胆碱能危象。目的:合成一系列希夫碱肟,并评价其对毒死蜱抑制乙酰胆碱酯酶活性的体外再激活能力。方法:在冰醋酸存在下,用取代苯甲醛处理4-氨基苯乙酮的氨基,形成希夫碱(1a-1f)。在醇的存在下,用盐酸羟胺处理希夫碱制备了标题化合物(2a-2f)。通过结构和光谱分析,确定了化合物的结构。采用Ellman法评价合成的化合物对毒死蜱抑制大鼠脑乙酰胆碱酯酶的再激活作用。结果:普拉多肟(2-PAM)在浓度为0.001 M时对毒死蜱抑制的乙酰胆碱酯(AChE)具有较强的活性,其中化合物2a (40.4%, 60min)和2d (37.9%, 60min)对毒死蜱抑制的乙酰胆碱酯(AChE)具有较强的活性。结论:含有氯(2a)和硝基(2d)取代4位的化合物对毒死蜱抑制的乙酰胆碱酯酶具有良好的活性。此外,由于这些希夫碱肟在较低浓度(10-3 M)下具有足够的再活化强度,因此看起来非常有前景。
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