一种针对猴免疫缺陷病毒（SIVmac）的裂解疫苗对猴子的保护作用取决于攻击病毒的生物学特性。

Protection of monkeys by a split vaccine against SIVmac depends upon biological properties of the challenge virus.

作者信息

Stahl-Hennig C, Voss G, Dittmer U, Coulibaly C, Petry H, Makoschey B, Cranage M P, Aubertin A M, Lüke W, Hunsmann G

机构信息

Deutsches Primatenzentrum, Abteilung Virologie und Immunologie, Göttingen, Germany.

出版信息

AIDS. 1993 Jun;7(6):787-95. doi: 10.1097/00002030-199306000-00005.

DOI:10.1097/00002030-199306000-00005

PMID:8363756

Abstract

OBJECTIVE

To investigate the role of the anti-cellular immune response in the protection of rhesus macaques against infection with the simian immunodeficiency virus SIVmac. To determine the biological differences between SIV challenge stocks grown either on human T-cell lines or on monkey peripheral blood mononuclear cells (MPBMC).

DESIGN

A protective SIVmac split vaccine was administered to rhesus macaques and their anti-, B- and T-cell response monitored. Vaccinees and controls were challenged with SIVmac grown either on human or on monkey cells. The in vivo replication rate of, and the immune response to, the two viruses was compared.

METHODS

Five rhesus macaques were immunized with a total of 2 mg each of purified SIVmac251/32H grown on the human C8166 T-cell line. The antibody and proliferative T-cell responses were evaluated by enzyme-linked immunosorbent assay and T-cell proliferation assay, respectively. Four protected animals and four controls were reboosted and challenged with MPBMC-grown SIVmac251 (SIVmac251/MPBMC). Cell-free virus load was determined by titration of plasma for SIV infectivity on C8166 cells and antigen with a core antigen capture assay.

RESULTS

Protection from virus challenge with C8166-grown SIVmac251/32H or SIVmac251/MPBMC did not correlate with anti-cellular antibodies or proliferative T-cell reactivities. Control animals infected with SIVmac251/MPBMC showed high persistent antigenaemia and high plasma virus titres. Both were absent in controls infected with complement C8166-grown SIVmac251/32H. Whereas the latter always seroconverted against the full panel of viral polypeptides, SIVmac251/MPBMC-infected animals showed a drastically decreased antibody response.

CONCLUSIONS

Neither the antibody nor the proliferative T-cell response to SIVmac correlates with protection from virus challenge. In contrast to SIVmac251/32H grown on C8166 cells, the MPBMC-grown challenge virus SIVmac251 appears to belong to the 'rapid-high' phenotype, possibly explaining the lack of protection against this SIV.

摘要

目的

研究抗细胞免疫反应在恒河猴抵御猿猴免疫缺陷病毒SIVmac感染中的作用。确定在人T细胞系或猴外周血单个核细胞（MPBMC）上培养的SIV攻击毒株之间的生物学差异。

设计

给恒河猴接种一种有保护作用的SIVmac裂解疫苗，并监测其抗细胞、B细胞和T细胞反应。用在人细胞或猴细胞上培养的SIVmac对接种疫苗的动物和对照动物进行攻击。比较两种病毒在体内的复制率以及免疫反应。

方法

用总共2毫克在人C8166 T细胞系上培养的纯化SIVmac251/32H对5只恒河猴进行免疫。分别通过酶联免疫吸附测定和T细胞增殖测定评估抗体和增殖性T细胞反应。对4只受保护的动物和4只对照动物进行再次免疫，并用人外周血单个核细胞培养的SIVmac251（SIVmac251/MPBMC）进行攻击。通过对血浆进行滴定以测定其在C8166细胞上的SIV感染性以及用核心抗原捕获测定法测定抗原，来确定无细胞病毒载量。

结果

对用C8166细胞培养的SIVmac251/32H或SIVmac251/MPBMC进行病毒攻击的保护作用与抗细胞抗体或增殖性T细胞反应性无关。感染SIVmac251/MPBMC的对照动物表现出持续的高抗原血症和高血浆病毒滴度。而感染用补体C8166细胞培养的SIVmac251/32H的对照动物则没有这些情况。后者总是针对全套病毒多肽发生血清转化，而感染SIVmac251/MPBMC的动物抗体反应则大幅降低。