新型设计的、阳离子、赖氨酸分支、两亲性、螺旋肽的抗疟原虫作用。

Anti-plasmodial action of de novo-designed, cationic, lysine-branched, amphipathic, helical peptides.

机构信息

Malaria Research Group, International Centre for Genetic Engineering and Biotechnology, Aruna Asaf Ali Marg, New Delhi 110067, India.

出版信息

Malar J. 2012 Aug 1;11:256. doi: 10.1186/1475-2875-11-256.

DOI:10.1186/1475-2875-11-256

PMID:22853877

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3502156/

Abstract

BACKGROUND

A lack of vaccine and rampant drug resistance demands new anti-malarials.

METHODS

In vitro blood stage anti-plasmodial properties of several de novo-designed, chemically synthesized, cationic, amphipathic, helical, antibiotic peptides were examined against Plasmodium falciparum using SYBR Green assay. Mechanistic details of anti-plasmodial action were examined by optical/fluorescence microscopy and FACS analysis.

RESULTS

Unlike the monomeric decapeptides {(Ac-GXRKXHKXWA-NH2) (X = F,ΔF) (Fm, ΔFm IC50 >100 μM)}, the lysine-branched,dimeric versions showed far greater potency {IC50 (μM) Fd 1.5 , ΔFd 1.39}. The more helical and proteolytically stable ΔFd was studied for mechanistic details. ΔFq, a K-K2 dendrimer of ΔFm and (ΔFm)2 a linear dimer of ΔFm showed IC50 (μM) of 0.25 and 2.4 respectively. The healthy/infected red cell selectivity indices were >35 (ΔFd), >20 (ΔFm)2 and 10 (ΔFq). FITC-ΔFd showed rapid and selective accumulation in parasitized red cells. Overlaying DAPI and FITC florescence suggested that ΔFd binds DNA. Trophozoites and schizonts incubated with ΔFd (2.5 μM) egressed anomalously and Band-3 immunostaining revealed them not to be associated with RBC membrane. Prematurely egressed merozoites from peptide-treated cultures were found to be invasion incompetent.

CONCLUSION

Good selectivity (>35), good resistance index (1.1) and low cytotoxicity indicate the promise of ΔFd against malaria.

摘要

背景

缺乏疫苗和抗药性的猖獗要求新的抗疟药物。

方法

使用 SYBR Green 检测法，对几种新设计的、化学合成的、阳离子的、两亲性的、螺旋的、抗生素肽对恶性疟原虫的体外血期抗疟原虫特性进行了检测。通过光学/荧光显微镜和 FACS 分析检查抗疟原虫作用的机制细节。

结果

与单体的十肽 {(Ac-GXRKXHKXWA-NH2) (X = F,ΔF) (Fm, ΔFm IC50 >100 μM)} 不同，赖氨酸分支的二聚体版本显示出更大的效力 {IC50 (μM) Fd 1.5, ΔFd 1.39}。更具螺旋性和更具蛋白水解稳定性的 ΔFd 被用于研究其机制细节。ΔFq 是 ΔFm 的 K-K2 树突状聚合物和 (ΔFm)2 的 ΔFm 线性二聚体，其 IC50 (μM) 分别为 0.25 和 2.4。健康/感染红细胞的选择性指数分别为 >35 (ΔFd)、>20 (ΔFm)2 和 10 (ΔFq)。FITC-ΔFd 显示出在寄生红细胞中的快速和选择性积累。DAPI 和 FITC 荧光的叠加表明 ΔFd 与 DNA 结合。用 ΔFd (2.5 μM) 孵育的滋养体和裂殖体异常出芽，Band-3 免疫染色显示它们与 RBC 膜无关。从肽处理培养物中过早出芽的裂殖子被发现不能入侵。

结论

良好的选择性 (>35)、良好的耐药指数 (1.1) 和低细胞毒性表明 ΔFd 对抗疟疾有希望。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dac7/3502156/5107a85a12d2/1475-2875-11-256-1.jpg

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新型设计的、阳离子、赖氨酸分支、两亲性、螺旋肽的抗疟原虫作用。

Anti-plasmodial action of de novo-designed, cationic, lysine-branched, amphipathic, helical peptides.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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