利用细菌在蚊子中肠表达并展示抗疟原虫分子。

Using bacteria to express and display anti-Plasmodium molecules in the mosquito midgut.

作者信息

Riehle Michael A, Moreira Cristina K, Lampe David, Lauzon Carol, Jacobs-Lorena Marcelo

机构信息

Department of Microbiology and Molecular Immunology, Malaria Research Institute, Johns Hopkins School of Public Health, Baltimore, MD 21205, USA.

出版信息

Int J Parasitol. 2007 May;37(6):595-603. doi: 10.1016/j.ijpara.2006.12.002. Epub 2006 Dec 28.

DOI:10.1016/j.ijpara.2006.12.002

PMID:17224154

Abstract

Bacteria capable of colonizing mosquito midguts are attractive vehicles for delivering anti-malaria molecules. We genetically engineered Escherichia coli to display two anti-Plasmodium effector molecules, SM1 and phospholipase-A(2), on their outer membrane. Both molecules significantly inhibited Plasmodium berghei development when engineered bacteria were fed to mosquitoes 24h prior to an infective bloodmeal (SM1=41%, PLA2=23%). Furthermore, prevalence and numbers of engineered bacteria increased dramatically following a bloodmeal. However, E. coli survived poorly in mosquitoes. Therefore, Enterobacter agglomerans was isolated from mosquitoes and selected for midgut survival by multiple passages through mosquitoes. After four passages, E. agglomerans survivorship increased from 2 days to 2 weeks. Since E. agglomerans is non-pathogenic and widespread, it is an excellent candidate for paratransgenic control strategies.

摘要

能够定殖于蚊虫中肠的细菌是递送抗疟疾分子的理想载体。我们通过基因工程改造大肠杆菌，使其在外膜上展示两种抗疟效应分子，即SM1和磷脂酶A2。当在感染性血餐进食前24小时将工程菌投喂给蚊子时，这两种分子均能显著抑制伯氏疟原虫的发育（SM1 = 41%，PLA2 = 23%）。此外，血餐后工程菌的流行率和数量大幅增加。然而，大肠杆菌在蚊子体内的存活能力较差。因此，从蚊子中分离出成团肠杆菌，并通过多次经蚊子传代来选择在中肠存活的菌株。经过四代传代后，成团肠杆菌的存活时间从2天增加到了2周。由于成团肠杆菌无致病性且广泛存在，它是转基因控制策略的优秀候选者。

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利用细菌在蚊子中肠表达并展示抗疟原虫分子。

Using bacteria to express and display anti-Plasmodium molecules in the mosquito midgut.

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