Knockdown of Thitarodes host genes influences dimorphic transition of Ophiocordyceps sinensis in the host hemolymph.

IF 4.6 2区 医学 Q2 IMMUNOLOGY
Frontiers in Cellular and Infection Microbiology Pub Date : 2024-09-27 eCollection Date: 2024-01-01 DOI:10.3389/fcimb.2024.1451628
Tanqi Sun, Yongling Jin, Zhongchen Rao, Wang Liyan, Rui Tang, Khalid Muhammad Zaryab, Mingyan Li, Zhenhao Li, Ying Wang, Jing Xu, Richou Han, Li Cao
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Abstract

The Chinese cordyceps, a unique parasitic complex of Thitarodes/Hepialus ghost moths and Ophiocordyceps sinensis fungus in the Tibetan Plateau, is a highly valuable biological resource for medicine and health foods in Asian countries. Efficient system for artificial cultivation of Chinese cordyceps relies on understanding the gene functions involved in the induction of growing blastospores into hyphae in the larval hemolymph of insect host, during O. sinensis infection. Transcriptome analysis and ribonucleic acid interference (RNA interference) method were employed to identify the key differentially expressed genes and to demonstrate their functions in Thitarodes xiaojinensis. Key larval genes critical for O. sinensis blastospore development or filamentation were identified. Nine of the 20 top upregulated genes encoded cuticles proteins, indicating that these proteins highly activated when the larval hemolymph was full of blastospores. Small interfering RNA (siRNA) knockdown of five larval genes such as Flightin, larval cuticle protein LCP-30, 26-hydroxylase (CYP18A1), cuticle protein 18.6, isoform B, and probable chitinase 3 significantly stimulated the dimorphic transition from blastospores to prehyphae in O. sinensis in the larval hemolymph after 120 h after injection. The expressions of these genes determined by quantitative real-time PCR were suppressed in various levels from 38.64% to 91.54%, compared to the controls. These results demonstrated that injection of the siRNAs of key upregulated genes into the larval hemolymph containing high load of blastospores caused the gene silence in T. xiaojinensis larvae and induced the fungal transition from blastospores to prehyphae, providing novel knowledge on the regulation of O. sinensis fungal dimorphism by Thitarodes host and cues for further study of Thitarodes biology and commercial cultivation of Chinese cordyceps.

敲除Thitarodes宿主基因会影响冬虫夏草在宿主血淋巴中的二态转变。
中国冬虫夏草是青藏高原特有的冬虫夏草寄生复合体,是亚洲国家极具价值的医药和保健食品生物资源。高效的冬虫夏草人工栽培系统有赖于了解冬虫夏草感染昆虫宿主时,在幼虫血淋巴中诱导生长囊孢子成菌丝的基因功能。通过转录组分析和核糖核酸干扰(RNA干扰)方法,确定了小金松茸中关键的差异表达基因,并证明了它们的功能。发现了对中华蓟马胚囊孢子发育或丝状化至关重要的幼虫基因。在20个上调最高的基因中,有9个编码角质层蛋白,表明当幼虫血淋巴中充满囊孢子时,这些蛋白被高度激活。小干扰RNA(siRNA)敲除5个幼虫基因,如Flightin、幼虫角质层蛋白LCP-30、26-羟化酶(CYP18A1)、角质层蛋白18.6同工酶B和可能的几丁质酶3,可显著刺激注射120 h后幼虫血淋巴中中华大蚯蚓从囊孢到前孢子的二型转化。与对照组相比,通过实时定量 PCR 测定的这些基因的表达受到不同程度的抑制,抑制率从 38.64% 到 91.54%不等。这些结果表明,向含有大量囊孢子的幼虫血淋巴中注入关键上调基因的siRNA可导致小金虫幼虫体内的基因沉默,并诱导真菌从囊孢子到前孢子的转化,为小金虫宿主调控中华冬虫夏草真菌二态性提供了新的知识,为进一步研究小金虫生物学和商业化栽培中华冬虫夏草提供了线索。
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来源期刊
CiteScore
7.90
自引率
7.00%
发文量
1817
审稿时长
14 weeks
期刊介绍: Frontiers in Cellular and Infection Microbiology is a leading specialty journal, publishing rigorously peer-reviewed research across all pathogenic microorganisms and their interaction with their hosts. Chief Editor Yousef Abu Kwaik, University of Louisville is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Frontiers in Cellular and Infection Microbiology includes research on bacteria, fungi, parasites, viruses, endosymbionts, prions and all microbial pathogens as well as the microbiota and its effect on health and disease in various hosts. The research approaches include molecular microbiology, cellular microbiology, gene regulation, proteomics, signal transduction, pathogenic evolution, genomics, structural biology, and virulence factors as well as model hosts. Areas of research to counteract infectious agents by the host include the host innate and adaptive immune responses as well as metabolic restrictions to various pathogenic microorganisms, vaccine design and development against various pathogenic microorganisms, and the mechanisms of antibiotic resistance and its countermeasures.
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