Pathogen-associated molecular patterns (PAMPs) derived from Leishmania and bacteria increase gene expression of antimicrobial peptides and gut surface proteins in sand flies

IF 3.7 2区 医学 Q1 PARASITOLOGY International journal for parasitology Pub Date : 2024-08-01 DOI:10.1016/j.ijpara.2024.04.005
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Abstract

The interaction between pathogens and vectors’ physiology can impact parasite transmission. Studying this interaction at the molecular level can help in developing control strategies. We study leishmaniases, diseases caused by Leishmania parasites transmitted by sand fly vectors, posing a significant global public health concern. Lipophosphoglycan (LPG), the major surface glycoconjugate of Leishmania, has been described to have several roles throughout the parasite’s life cycle, both in the insect and vertebrate hosts. In addition, the sand fly midgut possesses a rich microbiota expressing lipopolysaccharides (LPS). However, the effect of LPG and LPS on the gene expression of sand fly midgut proteins or immunity effectors has not yet been documented. We experimentally fed Lutzomyia longipalpis and Phlebotomus papatasi sand flies with blood containing purified LPG from Leishmania infantum, Leishmania major, or LPS from Escherichia coli. The effect on the expression of genes encoding gut proteins galectin and mucin, digestive enzymes trypsin and chymotrypsin, and antimicrobial peptides (AMPs) attacin and defensins was assessed by quantitative PCR (qPCR). The gene expression of a mucin-like protein in L. longipalpis was increased by L. infantum LPG and E. coli LPS. The gene expression of a galectin was increased in L. longipalpis by L. major LPG, and in P. papatasi by E. coli LPS. Nevertheless, the gene expression of trypsins and chymotrypsins did not significantly change. On the other hand, both L. infantum and L. major LPG significantly enhanced expression of the AMP attacin in both sand fly species and defensin in L. longipalpis. In addition, E. coli LPS increased the expression of attacin and defensin in L. longipalpis. Our study showed that Leishmania LPG and E. coli LPS differentially modulate the expression of sand fly genes involved in gut maintenance and defence. This suggests that the glycoconjugates from microbiota or Leishmania may increase the vector’s immune response and the gene expression of a gut coating protein in a permissive vector.

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来自利什曼原虫和细菌的病原体相关分子模式(PAMPs)会增加沙蝇体内抗菌肽和肠道表面蛋白的基因表达。
病原体与病媒生理之间的相互作用会影响寄生虫的传播。从分子水平研究这种相互作用有助于制定控制策略。我们研究的利什曼病是由沙蝇媒介传播的利什曼寄生虫引起的疾病,是全球公共卫生的重大问题。脂磷聚糖(LPG)是利什曼原虫的主要表面糖类共轭物,在寄生虫的整个生命周期中,无论是在昆虫宿主还是在脊椎动物宿主体内,都发挥着多种作用。此外,沙蝇中肠拥有丰富的表达脂多糖(LPS)的微生物群。然而,LPG 和 LPS 对沙蝇中肠蛋白或免疫效应因子基因表达的影响尚未被记录。我们用含有纯化的幼年利什曼原虫、大利什曼原虫LPG或大肠杆菌LPS的血液喂养Lutzomyia longipalpis和Phlebotomus papatasi沙蝇。通过定量聚合酶链反应(qPCR)评估了对编码肠道蛋白galectin和粘蛋白、消化酶胰蛋白酶和糜蛋白酶以及抗菌肽(AMPs)attacin和防御素(defensins)的基因表达的影响。婴儿痢疾杆菌 LPG 和大肠杆菌 LPS 增加了长舌蝇体内一种粘蛋白样蛋白的基因表达。大肠杆菌 LPG 和大肠杆菌 LPS 均增加了长尾蝇中一种半凝集素的基因表达量。然而,胰蛋白酶和糜蛋白酶的基因表达量没有显著变化。另一方面,L. infantum 和 L. major LPG 能显著提高两种沙蝇的 AMP attacin 和 L. longipalpis 的 defensin 的表达。此外,大肠杆菌 LPS 也能提高长爪蝇中的attacin 和 defensin 的表达。我们的研究表明,利什曼病菌 LPG 和大肠杆菌 LPS 对参与肠道维护和防御的沙蝇基因的表达有不同的调节作用。这表明,微生物群或利什曼病菌的糖类共轭物可能会增加载体的免疫反应,并增加许可载体肠道涂层蛋白的基因表达。
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来源期刊
CiteScore
8.40
自引率
2.50%
发文量
76
审稿时长
23 days
期刊介绍: International Journal for Parasitology offers authors the option to sponsor nonsubscriber access to their articles on Elsevier electronic publishing platforms. For more information please view our Sponsored Articles page. The International Journal for Parasitology publishes the results of original research in all aspects of basic and applied parasitology, including all the fields covered by its Specialist Editors, and ranging from parasites and host-parasite relationships of intrinsic biological interest to those of social and economic importance in human and veterinary medicine and agriculture.
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