Arbuzov Institute of Organic and Physical Chemistry, FRC Kazan Scientific Center, Russian Academy of Sciences, Arbuzov Str., 8, Kazan 420088, Russian Federation.
Biochemical Neuropharmacology Laboratory, Kazan Federal University, Kremlevskaya Str., 18, Kazan 420111, Russian Federation.
ACS Appl Mater Interfaces. 2022 May 4;14(17):19241-19252. doi: 10.1021/acsami.2c03210. Epub 2022 Apr 19.
A nanoreactor containing an evolved mutant of phosphotriesterase (L72C/Y97F/Y99F/W263V/I280T) as a catalytic bioscavenger was made for detoxification of organophosphates. This nanoreactor intended for treatment of organophosphate poisoning was studied against paraoxon (POX). Nanoreactors were low polydispersity polymersomes containing a high concentration of enzyme (20 μM). The polyethylene glycol-polypropylene sulfide membrane allowed for penetration of POX and exit of hydrolysis products. simulations under second order conditions showed that 1 μM enzyme inactivates 5 μM POX in less than 10 s. LD-shift experiments of POX-challenged mice through intraperitoneal () and subcutaneous () injections showed that intravenous administration of nanoreactors (1.6 nmol enzyme) protected against 7 × LD . in prophylaxis and 3.3 × LD in post-exposure treatment. For mice -challenged, LD shifts were more pronounced: 16.6 × LD in prophylaxis and 9.8 × LD in post-exposure treatment. Rotarod tests showed that transitory impaired neuromuscular functions of challenged mice were restored the day of experiments. No deterioration was observed in the following days and weeks. The high therapeutic index provided by prophylactic administration of enzyme nanoreactors suggests that no other drugs are needed for protection against acute POX toxicity. For post-exposure treatment, co-administration of classical drugs would certainly have beneficial effects against transient incapacitation.
一种含有进化突变体的纳米反应器(L72C/Y97F/Y99F/W263V/I280T)的磷酸三酯酶作为催化生物清除剂被用于解毒有机磷化合物。这种旨在治疗有机磷中毒的纳米反应器针对对氧磷(POX)进行了研究。纳米反应器是低多分散性聚合物囊泡,其中含有高浓度的酶(20 μM)。聚乙二醇-聚丙硫醚膜允许 POX 穿透并排出水解产物。在二级条件下的模拟表明,1 μM 的酶在不到 10 秒内可使 5 μM 的 POX 失活。通过腹腔内()和皮下()注射对 POX 挑战的小鼠进行 LD-shift 实验表明,静脉内给予纳米反应器(1.6 nmol 酶)可保护免受 7×LD 的影响。在预防和 3.3×LD 在暴露后治疗。对于 - 挑战的小鼠,LD 变化更为明显:预防中为 16.6×LD,暴露后治疗中为 9.8×LD。旋转棒试验表明,接受挑战的小鼠的短暂神经肌肉功能障碍在实验当天得到恢复。在随后的几天和几周内没有观察到恶化。预防性给予酶纳米反应器提供的高治疗指数表明,不需要其他药物来预防急性 POX 毒性。对于暴露后治疗,联合使用经典药物肯定会对短暂的失能产生有益的影响。
