利用硅锌指核酸酶靶向恶性疟原虫和间日疟原虫野生型红细胞受体:研制抗疟疾基因疫苗。

Henry Kajumbula, Wilson Byarugaba, Misaki Wayengera
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引用次数: 2

摘要

背景:疟疾在全球造成巨大的人类发病率和死亡率。间日疟原虫和恶性疟原虫引起75%以上的临床疟疾病例。到目前为止,基于基因的疟疾防治策略只应用于疟原虫及其蚊媒。这两种疟原虫的分殖子通过duffy抗原趋化因子受体(DARC)和糖蛋白a o -链聚糖的唾液酸残基(SLC4A1)靶向并侵入红细胞(rbc)。自然选择的duffy阴性黑色疟原虫的红细胞对间日疟原虫的嗜性具有抗性。我们假设,通过对红细胞受体进行靶诱变,使宿主途径发生人为畸变,可能会消除或降低宿主对疟疾的易感性。作为实验实现这些概念的第一步,我们旨在鉴定锌指阵列(ZFAs),以构建针对野生型宿主-红细胞受体基因的ZFNs。结果:利用同源智人darc和glycophorin-a的基因组上下文核苷酸序列,以及zfn联盟软件- CoDA-ZiFiT-ZFA和CoDA-ZiFiT-ZFN,我们鉴定出163个和1000多个单锌指阵列(sZFAs),它们结合了两种红细胞受体基因内的序列。其次,分别组装了2个和18个配对锌指阵列(pZFAs),它们是锌指核酸酶(ZFNs)的前体,能够切割darc和糖蛋白-a基因。第三,对这组ZFNs的全基因组切割特异性进行了meta - blast评估,揭示了人类基因组中除了darc或糖蛋白a之外的其他同源核苷酸靶点。结论:用这些zfa -前体工程的ZFNs -进一步优化以增强其仅对darc和糖蛋白a的特异性,可以用于构建实验基因型疟疾疫苗。另外,靶向darc和糖蛋白a DNA保守片段的巨核酶和转录激活因子样核酸酶(TAL)可能有助于消除恶性疟原虫和间日疟原虫对红细胞的侵袭。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Targeting wild-type Erythrocyte receptors for Plasmodium falciparum and vivax Merozoites by Zinc Finger Nucleases In- silico: Towards a Genetic Vaccine against Malaria.

Unlabelled:

Background: Malaria causes immense human morbidity and mortality globally. The plasmodium species vivax and falciparum cause over 75 % clinical malaria cases. Until now, gene-based strategies against malaria have only been applied to plasmodium species and their mosquito-vector. Merozoites of these two respective plasmodium species target and invade red blood cells (RBCs) by using the duffy antigen receptor for chemokines (DARC), and Sialic Acid (SLC4A1) residues of the O-linked glycans of Glycophorin A. RBCs of naturally selected duffy-negative blacks are resistant to P.vivax tropism. We hypothesized that artificial aberration of the host-pathway by target mutagenesis of either RBC -receptors, may abolish or reduce susceptibility of the host to malaria. As a first step towards the experimental actualization of these concepts, we aimed to identify zinc finger arrays (ZFAs) for constructing ZFNs that target genes of either wild-type host-RBC- receptors.

Methods: In-Silico Gene & Genome Informatics

Results: Using the genomic contextual nucleotide-sequences of homo-sapiens darc and glycophorin-a, and the ZFN-consortia software- CoDA-ZiFiT-ZFA and CoDA-ZiFiT-ZFN: we identified 163 and over 1,000 single zinc finger arrays (sZFAs) that bind sequences within the genes for the two respective RBC-receptors. Second, 2 and 18 paired zinc finger arrays (pZFAs) that are precursors for zinc finger nucleases (ZFNs) capable of cleaving the genes for darc and glycophorin-a were respectively assembled. Third, a mega-BLAST evaluation of the genome-wide cleavage specificity of this set of ZFNs was done, revealing alternate homologous nucleotide targets in the human genome other than darc or glycophorin A.

Conclusions: ZFNs engineered with these ZFA-precursors--with further optimization to enhance their specificity to only darc and glycophorin-a, could be used in constructing an experimental gene-based-malaria vaccine. Alternatively, meganucleases and transcription activator-like (TAL) nucleases that target conserved stretches of darc and glycophorin-a DNA may serve the purpose of abrogating invasion of RBCs by falciparam and vivax plasmodia species.

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