体内给药BL-3050:高度稳定的工程PON1-HDL复合物。

Leonid Gaidukov, Dganit Bar, Shiri Yacobson, Esmira Naftali, Olga Kaufman, Rinat Tabakman, Dan S Tawfik, Etgar Levy-Nissenbaum
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引用次数: 43

摘要

背景:血清对氧磷酶(PON1)是一种高密度脂蛋白(HDL)相关酶,参与有机磷(OP)降解和预防动脉粥样硬化。PON1包括体内治疗的潜在候选药物,作为抗动脉粥样硬化剂,以及农药和神经毒剂的解毒。由于人类PON1表现出有限的稳定性,设计具有更高反应性、溶解度、稳定性和细菌表达的工程重组PON1 (rePON1)变体是治疗的候选物。本研究探讨了体内给药rePON1及其HDL复合物作为一种潜在的治疗剂BL-3050的可行性。方法:对于稳定性研究,我们应用了与体内HDL和PON1失能相关的不同挑战,并测试了PON1活性的失活。我们在小鼠中应用急性、重复给药BL-3050来评估其毒性和不良免疫反应。采用毒死蜱-oxon中毒动物模型,检测重组PON1和BL-3050的体内药效。结果:失活研究表明,相对于人类PON1,工程PON1的体外寿命显著延长。相对于人类PON1的显著序列变化可能会由于不良免疫反应而阻碍BL-3050在体内的适用性。然而,我们观察到重复给药BL-3050对小鼠没有毒性作用,表明BL-3050可以安全使用。为了进一步评价BL-3050在体内的活性,我们采用了模拟人类有机磷中毒的动物模型。在这些研究中,rePON1和BL-3050的显著优势(生存率>87.5%)。结论:本文描述的体外和体内数据表明,rePON1和BL-3050在治疗OP毒性和动脉粥样硬化等慢性心血管疾病方面具有潜在优势。体内数据也表明,rePON1和BL-3050是稳定安全的,可用于急性和可能的重复治疗,无不良反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

In vivo administration of BL-3050: highly stable engineered PON1-HDL complexes.

In vivo administration of BL-3050: highly stable engineered PON1-HDL complexes.

In vivo administration of BL-3050: highly stable engineered PON1-HDL complexes.

In vivo administration of BL-3050: highly stable engineered PON1-HDL complexes.

Background: Serum paraoxonase (PON1) is a high density lipoprotein (HDL)-associated enzyme involved in organophosphate (OP) degradation and prevention of atherosclerosis. PON1 comprises a potential candidate for in vivo therapeutics, as an anti-atherogenic agent, and for detoxification of pesticides and nerve agents. Because human PON1 exhibits limited stability, engineered, recombinant PON1 (rePON1) variants that were designed for higher reactivity, solubility, stability, and bacterial expression, are candidates for treatment. This work addresses the feasibility of in vivo administration of rePON1, and its HDL complex, as a potentially therapeutic agent dubbed BL-3050.

Methods: For stability studies we applied different challenges related to the in vivo disfunctionalization of HDL and PON1 and tested for inactivation of PON1's activity. We applied acute, repetitive administrations of BL-3050 in mice to assess its toxicity and adverse immune responses. The in vivo efficacy of recombinant PON1 and BL-3050 were tested with an animal model of chlorpyrifos-oxon poisoning.

Results: Inactivation studies show significantly improved in vitro lifespan of the engineered rePON1 relative to human PON1. Significant sequence changes relative to human PON1 might hamper the in vivo applicability of BL-3050 due to adverse immune responses. However, we observed no toxic effects in mice subjected to repetitive administration of BL-3050, suggesting that BL-3050 could be safely used. To further evaluate the activity of BL-3050 in vivo, we applied an animal model that mimics human organophosphate poisoning. In these studies, a significant advantages of rePON1 and BL-3050 (>87.5% survival versus <37.5% in the control groups) was observed. Furthermore, BL-3050 and rePON1 were superior to the conventional treatment of atropine-2-PAM as a prophylactic treatment for OP poisoning.

Conclusion: In vitro and in vivo data described here demonstrate the potential advantages of rePON1 and BL-3050 for treatment of OP toxicity and chronic cardiovascular diseases like atherosclerosis. The in vivo data also suggest that rePON1 and BL-3050 are stable and safe, and could be used for acute, and possibly repeated treatments, with no adverse effects.

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