用于增强抗囊型包虫病疫苗设计的钙网蛋白的初步分析

Preliminary Analysis of Calreticulin for Enhanced Vaccine Design against Cystic Echinococcosis.

作者信息

Gorgin Zahra, Yousefi Mahzad, Ghiabi Shadan, Elahinia Ali, Yousefi Hamed, Aghmyouni Zahra Fadaeian, Jahani Negar, Asgari Amirhossein, Hamedi Erfan, Rajabi Romina, Rahmanian Parham, Hashemi Saeed, Zandieh Mohammad Arad, Majidiani Hamidreza, Motahari Alireza

机构信息

Faculty of Veterinary Medicine, Islamic Azad University, Tehran, Iran.

Department of Clinical Sciences, Faculty of Veterinary Medicine, Islamic Azad University, Tehran, Iran.

出版信息

Recent Adv Inflamm Allergy Drug Discov. 2025;19(1):100-109. doi: 10.2174/0127722708309749240821081333.

DOI:10.2174/0127722708309749240821081333

PMID:40195705

Abstract

BACKGROUND

A neglected zoonosis, Cystic Echinococcosis (CE), is most common in developing nations worldwide. Vaccination is, therefore, helpful in preventing this disease.

OBJECTIVE

Predicting the main biochemical properties of Calreticulin (CRT) and its possible B-cell and T-cell-binding epitopes as a valuable candidate for immunization was the goal of the current study.

METHODS

Predictions were made to determine biochemical, antigenic, structural, and subcellular characteristics, along with the immunogenic epitopes, using several online servers.

RESULTS

The extracellular 48.15 KDa protein exhibited no allergenicity, while possessing hydrophilicity (GRAVY: -0.785), stability (instability: 33.88), tolerance to a wide range of temperatures (aliphatic: 62.45), and 59 post-translational modification sites. The secondary structure mostly comprised random coils and extended strands. The 3D model was generated using the Robetta server (confidence: 0.72), and was rehashed and confirmed subsequently. Common B-cell epitopes were discovered by three servers and screened for antigenic, allergenic, and solubility traits. Moreover, MHC-associated epitopes for mice and humans were predicted in CRT with subsequent screening.

CONCLUSION

This work offers a foundation for further investigation in order to design an effective vaccination against CE. Further empirical research on the examined protein solely or in combination with other antigens is needed.

摘要

背景

囊型包虫病（CE）是一种被忽视的人畜共患病，在全球发展中国家最为常见。因此，疫苗接种有助于预防这种疾病。

目的

预测钙网蛋白（CRT）的主要生化特性及其可能的B细胞和T细胞结合表位，作为一种有价值的免疫候选物，是本研究的目标。

方法

使用多个在线服务器进行预测，以确定生化、抗原、结构和亚细胞特征以及免疫原性表位。

结果

细胞外48.15 kDa蛋白无致敏性，具有亲水性（GRAVY：-0.785）、稳定性（不稳定性：33.88）、对广泛温度的耐受性（脂肪族：62.45）以及59个翻译后修饰位点。二级结构主要由无规卷曲和延伸链组成。三维模型使用Robetta服务器生成（置信度：0.72），随后进行了重新处理和确认。通过三个服务器发现了常见的B细胞表位，并对其抗原性、致敏性和溶解性特征进行了筛选。此外，还预测了CRT中与小鼠和人类MHC相关的表位，并进行了后续筛选。

结论

这项工作为进一步研究设计有效的CE疫苗提供了基础。需要对所研究的蛋白质单独或与其他抗原联合进行进一步的实证研究。

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用于增强抗囊型包虫病疫苗设计的钙网蛋白的初步分析

Preliminary Analysis of Calreticulin for Enhanced Vaccine Design against Cystic Echinococcosis.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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