铁蛋白2作为开发针对鸡螨、鸡皮刺螨、热带禽螨和北方禽螨通用疫苗的抗原的潜力。
Potential of ferritin 2 as an antigen for the development of a universal vaccine for avian mites, poultry red mites, tropical fowl mites, and northern fowl mites.
作者信息
Win Shwe Yee, Murata Shiro, Fujisawa Sotaro, Seo Hikari, Sato Jumpei, Motai Yoshinosuke, Sato Takumi, Oishi Eiji, Taneno Akira, Htun Lat Lat, Bawm Saw, Okagawa Tomohiro, Maekawa Naoya, Konnai Satoru, Ohashi Kazuhiko
机构信息
Laboratory of Infectious Diseases, Department of Disease Control, Faculty of Veterinary Medicine, Hokkaido University, Sapporo, Japan.
Department of Advanced Pharmaceutics, Faculty of Veterinary Medicine, Hokkaido University, Sapporo, Japan.
出版信息
Front Vet Sci. 2023 Apr 17;10:1182930. doi: 10.3389/fvets.2023.1182930. eCollection 2023.
INTRODUCTION
Poultry red mites (PRMs, ), blood-sucking ectoparasites, are a threat to the poultry industry because of reduced production caused by infestation. In addition, tropical fowl mites (TFMs, ) and northern fowl mites (NFMs, ) are hematophagous, distributed in various regions, genetically and morphologically close to PRMs, and cause similar problems to the poultry industry. Vaccine approaches have been studied for PRM control, and several molecules have been identified in PRMs as candidates for effective vaccine antigens. The development of an anti-PRM vaccine as a universal vaccine with broad efficacy against avian mites could improve the productivity of poultry farms worldwide. Molecules that are highly conserved among avian mites and have critical functions in the physiology and growth of mites could be ideal antigen candidates for the development of universal vaccines. Ferritin 2 (FER2), an iron-binding protein, is critical for the reproduction and survival of PRMs and has been reported as a useful vaccine antigen for the control of PRMs and a candidate for the universal vaccine antigen in some tick species.
METHOD AND RESULTS
Herein, we identified and characterized FER2 in TFMs and NFM. Compared with the sequence of PRM, the ferroxidase centers of the heavy chain subunits were conserved in FER2 of TFMs and NFMs. Phylogenetic analysis revealed that FER2 belongs to clusters of secretory ferritins of mites and other arthropods. Recombinant FER2 (rFER2) proteins from PRMs, TFMs, and NFMs exhibited iron-binding abilities. Immunization with each rFER2 induced strong antibody responses in chickens, and each immune plasma cross-reacted with rFER2 from different mites. Moreover, mortality rates of PRMs fed with immune plasma against rFER2 from TFMs or NFMs, in addition to PRMs, were higher than those of control plasma.
DISCUSSION
rFER2 from each avian mite exhibited anti-PRM effects. This data suggests that it has the potential to be used as an antigen candidate for a universal vaccine against avian mites. Further studies are needed to access the usefulness of FER2 as a universal vaccine for the control of avian mites.
引言
家禽红螨(PRMs)是吸血性体外寄生虫,因侵扰导致产量下降,对家禽业构成威胁。此外,热带禽螨(TFMs)和北方禽螨(NFMs)也是吸血性的,分布于不同地区,在基因和形态上与家禽红螨相近,给家禽业造成类似问题。人们已研究了用于控制家禽红螨的疫苗方法,并已在家禽红螨中鉴定出几种分子作为有效疫苗抗原的候选物。开发一种抗家禽红螨疫苗作为对禽类螨具有广泛效力的通用疫苗,可提高全球家禽养殖场的生产力。在禽类螨中高度保守且在螨的生理和生长中具有关键功能的分子,可能是开发通用疫苗的理想抗原候选物。铁蛋白2(FER2)是一种铁结合蛋白,对家禽红螨的繁殖和存活至关重要,据报道它是控制家禽红螨的有用疫苗抗原,也是一些蜱虫物种通用疫苗抗原的候选物。
方法与结果
在此,我们鉴定并表征了热带禽螨和北方禽螨中的铁蛋白2。与家禽红螨的序列相比,重链亚基的铁氧化酶中心在家禽红螨和北方禽螨的铁蛋白2中是保守的。系统发育分析表明,铁蛋白2属于螨类和其他节肢动物的分泌型铁蛋白簇。来自家禽红螨、热带禽螨和北方禽螨的重组铁蛋白2(rFER2)蛋白表现出铁结合能力。用每种rFER2免疫均可在鸡中诱导强烈的抗体反应,且每种免疫血浆都能与来自不同螨类的rFER2发生交叉反应。此外,用针对热带禽螨或北方禽螨rFER2的免疫血浆喂养的家禽红螨,其死亡率除了高于用对照血浆喂养的家禽红螨外,还高于用针对自身rFER2免疫血浆喂养的家禽红螨。
讨论
来自每种禽类螨的rFER2均表现出抗家禽红螨的作用。这些数据表明,它有潜力用作抗禽类螨通用疫苗的抗原候选物。需要进一步研究以评估铁蛋白2作为控制禽类螨通用疫苗的有效性。
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