评估编码杰姆布拉纳病病毒Env-TM蛋白的壳聚糖-DNA质粒复合物作为候选疫苗。

Evaluation of Chitosan-DNA Plasmid Complex Encoding Jembrana Disease Virus Env-TM Protein as a Vaccine Candidate.

作者信息

Ishak Januar, Unsunnidhal Lalu, Martien Ronny, Kusumawati Asmarani

机构信息

Research Center for Biotechnology, Faridabad, India.

Department of Pharmaceutics, Faridabad, India.

出版信息

J Vet Res. 2019 Mar 22;63(1):7-16. doi: 10.2478/jvetres-2019-0018. eCollection 2019 Mar.

DOI:10.2478/jvetres-2019-0018

PMID:30989130

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6458558/

Abstract

INTRODUCTION

The development of Jembrana disease vaccine is an important effort to prevent losses in the Bali cattle industry in Indonesia. This study aims to prepare a Jembrana DNA vaccine encoding the transmembrane portion of the envelope protein in pEGFP-C1 and test the success of its delivery in culture cells using a chitosan-DNA complex.

MATERIAL AND METHODS

Cloning of the DNA vaccine was successfully performed on DH5α and confirmed by colony PCR, restriction analysis and sequencing. The plasmids were prepared as a chitosan complex using the complex coacervation method and physicochemically characterised using a particle size analyser. A transfection assay was performed in HeLa cells with 4 h exposure, and mRNA expression was assessed at 24 h post transfection.

RESULTS

With a 1:2 (wt./wt.) ratio of DNA and chitosan, the complexes have a mean diameter of 236 nm, zeta potential value of + 17.9 mV, and showed no high toxicity potential in the HeLa cells. This complex successfully delivered the DNA into cells, as shown by the presence of a specific RT-PCR product (336 bp). However, the real-time PCR analysis showed that the delivery with chitosan complex resulted in lower target mRNA expression when compared with a commercial transfecting agent.

CONCLUSION

pEGFP-env-tm JDV as a candidate vaccine can be delivered as the chitosan-DNA complex and be expressed at the transcription level . This initial study will be used for further improvement and evaluation .

摘要

引言

杰姆巴纳病疫苗的研发是预防印度尼西亚巴厘岛养牛业损失的一项重要工作。本研究旨在制备一种编码包膜蛋白跨膜部分的杰姆巴纳DNA疫苗，该疫苗构建于pEGFP-C1载体上，并使用壳聚糖-DNA复合物测试其在培养细胞中的递送效果。

材料与方法

DNA疫苗在DH5α中成功克隆，并通过菌落PCR、限制性分析和测序进行确认。使用复合凝聚法将质粒制备成壳聚糖复合物，并使用粒度分析仪对其进行物理化学表征。在HeLa细胞中进行4小时暴露的转染试验，并在转染后24小时评估mRNA表达。

结果

DNA与壳聚糖的比例为1:2（重量/重量）时，复合物的平均直径为236nm，zeta电位值为+17.9mV，并且在HeLa细胞中未显示出高毒性潜力。如特异性RT-PCR产物（336bp）的存在所示，该复合物成功地将DNA递送至细胞中。然而，实时PCR分析表明，与商业转染剂相比，壳聚糖复合物递送导致的靶mRNA表达较低。

结论

pEGFP-env-tm JDV作为候选疫苗可以以壳聚糖-DNA复合物的形式递送，并在转录水平表达。这项初步研究将用于进一步的改进和评估。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d6ce/6458558/064d1d983080/jvetres-63-007-g001.jpg

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评估编码杰姆布拉纳病病毒Env-TM蛋白的壳聚糖-DNA质粒复合物作为候选疫苗。

Evaluation of Chitosan-DNA Plasmid Complex Encoding Jembrana Disease Virus Env-TM Protein as a Vaccine Candidate.

作者信息

机构信息

出版信息

INTRODUCTION

MATERIAL AND METHODS

RESULTS

CONCLUSION

引言

材料与方法

结果

结论

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