Immuno-bioinformatic approach for designing of multi-epitope merozoite surface antigen of Babesia bigemina and evaluation of its immunogenicity in inoculated calves.

Z Ul Rehman, M Suleman, K Ashraf, S Ali, S Rahman, M I Rashid
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Abstract

Babesiosis is a parasitic disease caused by intraerythrocytic parasites of the genus Babesia, which infect both wild and domestic animals. Merozoite surface antigens (MSAs) have been identified as efficient immunogens in Babesia-infected animals. MSAs play a key role in the invasion process and have been proposed as potential targets for vaccine development. Epitope-based vaccines offer several advantages over whole protein vaccines as the immunogenic proteins are small and can induce both Th1 and Th2 immune responses, which are desirable for protection. However, the MSA, particularly gp45, is polymorphic in Babesia bigemina, posing a challenge to vaccine development. The purpose of this study was to develop a recombinant gpME (gp45-multi-epitope) for a vaccine against Babesia bigemina. B-cell, T-cell, and HLA epitope predictions were used to synthesize the gpME sequence from the consensus sequence of gp45. The gpME sequence was synthesized and cloned in the pET28α vector through the commercial biotechnology company to get pET28-gpME. The plasmid cloned with the gpME sequence comprising 1068 bp was expressed in a bacterial expression system. A band of 39 kDa of rec-gpME was obtained via SDS-PAGE and Western blotting. Rec-gpME @200ng was injected in calves 3 times at 2 weeks interval. The humoral response was evaluated through the indirect ELISA method. The ELISA with rec-gp45 protein showed a significant value of optical density. The recombinant protein containing multiple epitopes from the MSA gp45 may represent a promising candidate for a vaccine against Babesia bigemina.

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免疫生物信息学方法设计双联巴贝斯虫多表位裂殖子表面抗原并评价其在接种小牛中的免疫原性。
巴贝虫病是由巴贝虫属红细胞内寄生虫引起的一种寄生虫病,可感染野生动物和家畜。胚胎表面抗原(MSAs)已被鉴定为巴贝斯虫感染动物的有效免疫原。MSAs在入侵过程中发挥着关键作用,并被认为是疫苗开发的潜在目标。基于表位的疫苗比全蛋白疫苗有几个优点,因为免疫原性蛋白很小,可以诱导Th1和Th2免疫反应,这是保护所需的。然而,MSA,特别是gp45,在二联巴贝虫中是多态性的,这对疫苗开发构成了挑战。本研究的目的是开发一种重组gpME(gp45多表位),用于抗双联巴贝虫的疫苗。B细胞、T细胞和HLA表位预测用于从gp45的共有序列合成gpME序列。通过商业生物技术公司将gpME序列合成并克隆到pET28α载体中,得到pET28 gpME。用包含1068bp的gpME序列克隆的质粒在细菌表达系统中表达。通过SDS-PAGE和蛋白质印迹获得39kDa的rec-gpME条带。在小牛体内每隔2周注射3次Rec-gpME@200ng。通过间接ELISA法评估体液反应。用rec-gp45蛋白进行的ELISA显示了显著的光密度值。含有来自MSA gp45的多个表位的重组蛋白可以代表针对双联巴贝虫的疫苗的有希望的候选者。
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