以乙肝核心抗原作为免疫载体开发丙型肝炎病毒疫苗。
Development of hepatitis C virus vaccine using hepatitis B core antigen as immuno-carrier.
作者信息
Chen Jia-Yu, Li Fan
机构信息
Medical School of Taizhou University, Taizhou 318000, Zhejiang Province, China.
出版信息
World J Gastroenterol. 2006 Dec 28;12(48):7774-8. doi: 10.3748/wjg.v12.i48.7774.
AIM
To develop hepatitis C virus (HCV) vaccine using HBcAg as the immuno-carrier to express HCV T epitope and to investigate its immunogenicity in mice.
METHODS
We constructed the plasmid pTrc-core(NheI) using gene engineering technique, constructed the pcDNA3.1-core(NheI)-GFP plasmid with GFP as the reporter gene, and transfected them into Hela cells. The expression of GFP was observed under confocal microscopy and the feasibility of using HBcAg as an immuno-carrier vaccine was studied. pTrc-core gene with a synthetic T epitope antigen gene of HCV (35-44aa) was fused and expressed in the plasmid pTrc-core-HCV (T). For the fusion of the HBcAg-T protein, sucrose, density gradient centrifugation was used, and its molecular weight and purity were analyzed by SDS-PAGE. Then balb/c mice were immunized by the plasmid with the HBcAg (expressed by pTrc-core) protein as control. The tumor regression potential was investigated in mice and evaluated at appropriate time. After three times of immunization, the peripheral blood and spleen of vaccinated mice were collected. HBcAb was detected by ELISA, and nonspecific T lymphocyte proliferation and response of splenocytes were respectively examined by MTT assay. T cell subset of blood and spleen were detected by FACS.
RESULTS
GFP was successfully expressed. Tumor regression trial showed that no tumor formation was found in the group receiving immunization, while tumor xenograft progression was not changed in the control group. Strong nonspecific lymphocyte proliferation response was induced. FACS also showed that the ratio of CD8+ T cells in the experimental group was higher than the controls, but the serum HBcAb in experimental group was similar to the control.
CONCLUSION
HBcAg can be used as an immuno-carrier of vaccine, the fusion of HBcAg-T protein could induce stronger cellular immune responses and it might be a candidate for therapeutic vaccines specific for HCV.
目的
构建以乙肝核心抗原(HBcAg)为免疫载体表达丙型肝炎病毒(HCV)T 表位的 HCV 疫苗,并研究其在小鼠体内的免疫原性。
方法
采用基因工程技术构建质粒 pTrc-core(NheI),以绿色荧光蛋白(GFP)为报告基因构建 pcDNA3.1-core(NheI)-GFP 质粒,并将其转染至 Hela 细胞。在共聚焦显微镜下观察 GFP 的表达情况,研究以 HBcAg 作为免疫载体疫苗的可行性。将含 HCV 合成 T 表位抗原基因(35 - 44aa)的 pTrc-core 基因融合表达于质粒 pTrc-core-HCV(T)中。对于 HBcAg-T 蛋白的融合,采用蔗糖密度梯度离心法,并通过 SDS-PAGE 分析其分子量和纯度。然后以表达 HBcAg(由 pTrc-core 表达)蛋白的质粒免疫 balb/c 小鼠作为对照。研究小鼠的肿瘤消退潜能并在适当时间进行评估。三次免疫后,收集免疫小鼠的外周血和脾脏。通过 ELISA 检测 HBcAb,采用 MTT 法分别检测脾细胞的非特异性 T 淋巴细胞增殖和反应。通过流式细胞术(FACS)检测血液和脾脏的 T 细胞亚群。
结果
成功表达 GFP。肿瘤消退试验表明,免疫组未发现肿瘤形成,而对照组肿瘤异种移植进展未改变。诱导了强烈的非特异性淋巴细胞增殖反应。FACS 还显示,实验组 CD8⁺T 细胞比例高于对照组,但实验组血清 HBcAb 与对照组相似。
结论
HBcAg 可作为疫苗的免疫载体,HBcAg-T 蛋白融合物可诱导较强的细胞免疫反应,可能是 HCV 特异性治疗性疫苗的候选物。
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