Milich D R, McLachlan A, Thornton G B, Hughes J L
Department of Molecular Biology, Scripps Clinic and Research Foundation, La Jolla, California 92037.
Nature. 1987;329(6139):547-9. doi: 10.1038/329547a0.
The nucleocapsid (HBcAg) of the hepatitis B virus (HBV) can induce antibody responses via both a T-cell dependent and a T-cell independent pathway and is highly immunogenic during infection. We have examined the T-cell determinants of the antigen and find that HBcAg-specific helper T cells (TH) can help B cells produce antibody against envelope (HBsAg) antigens as well as HBcAg, even though these antigens are found on separate molecules. We have also been able to prime helper T cells with synthetic T-cell epitopes of HBcAg; helper cells primed with a single synthetic epitope can induce B cells to produce antibody that reacts with multiple HBsAg epitopes. One problem with the development of an HBV vaccine is that some vaccinees and patients do not respond to HBsAg directly; our results indicate that this problem can be circumvented using the response to HBcAg.
乙型肝炎病毒(HBV)的核衣壳(HBcAg)可通过T细胞依赖和T细胞非依赖途径诱导抗体反应,并且在感染期间具有高度免疫原性。我们已经研究了该抗原的T细胞决定簇,发现HBcAg特异性辅助性T细胞(TH)可以帮助B细胞产生针对包膜(HBsAg)抗原以及HBcAg的抗体,尽管这些抗原存在于不同的分子上。我们还能够用HBcAg的合成T细胞表位启动辅助性T细胞;用单个合成表位启动的辅助性T细胞可以诱导B细胞产生与多个HBsAg表位发生反应的抗体。开发HBV疫苗的一个问题是,一些接种疫苗者和患者对HBsAg没有直接反应;我们的结果表明,利用对HBcAg的反应可以规避这个问题。