Couderc T, Hogle J, Le Blay H, Horaud F, Blondel B
Unité de Virologie Médicale, Institut Pasteur, Paris, France.
J Virol. 1993 Jul;67(7):3808-17. doi: 10.1128/JVI.67.7.3808-3817.1993.
Most poliovirus (PV) strains, including PV PV-1/Mahoney, are unable to cause paralysis in mice. Determinants for restriction of PV-1/Mahoney in mice have been identified by manipulating PV-1 cDNA and located on the viral capsid protein VP1. These determinants consist of a highly exposed amino acid sequence on the capsid surface corresponding to the B-C loop (M. Murray, J. Bradley, X. Yang, E. Wimmer, E. Moss, and V. Racaniello, Science 241:213-215, 1988; A. Martin, C. Wychowski, T. Couderc, R. Crainic, J. Hogle, and M. Girard, EMBO J. 7:2839-2847, 1988) and of residues belonging to the N-terminal sequence located on the inner surface of the protein shell (E. Moss and V. Racaniello, EMBO J. 10:1067-1074, 1991). Using an in vivo approach, we isolated two mouse-neurovirulent PV-1 mutants in the mouse central nervous system after a single passage of PV-1/Mahoney inoculated by the intracerebral route. Both mutants were subjected to two additional passages in mice, plaque purified, and subsequently characterized. The two cloned mutants, Mah-NK13 and Mah-NL32, retained phenotypic characteristics of the parental PV-1/Mahoney, including epitope map, heat lability, and temperature sensitivity. Mah-NK13 exhibited slightly smaller plaques than did the parental virus. The nucleotide sequences of the mutant genomes were determined, and mutations were identified. Mutations were independently introduced into the parental PV-1/Mahoney genome by single-site mutagenesis. Mutated PV-1/Mahoney viruses were then tested for their neurovirulence in mice. A single amino acid substitution in the capsid proteins VP1 (Thr-22-->Ile) and VP2 (Ser-31-->Thr) identified in the Mah-NK13 and Mah-NL32 genomes, respectively, conferred the mouse-virulent phenotype to the mouse-avirulent PV-1/Mahoney. Ile-22 in VP1 was responsible for the small-plaque phenotype of Mah-NK13. Both mutations arose during the first passage in the mouse central nervous system. We thus identified a new mouse adaptation determinant on capsid protein VP1, and we showed that at least one other capsid protein, VP2, could also express a mouse adaptation determinant. Both determinants are located in the inside of the three-dimensional structure of the viral capsid. They may be involved in the early steps of mouse nerve cell infection subsequent to receptor attachment.
大多数脊髓灰质炎病毒(PV)毒株,包括PV-1/Mahoney毒株,在小鼠中无法导致麻痹。通过对PV-1 cDNA进行操作,已确定了PV-1/Mahoney在小鼠中受限的决定因素,其位于病毒衣壳蛋白VP1上。这些决定因素由衣壳表面高度暴露的氨基酸序列组成,对应于B - C环(M. Murray、J. Bradley、X. Yang、E. Wimmer、E. Moss和V. Racaniello,《科学》241:213 - 215,1988;A. Martin、C. Wychowski、T. Couderc、R. Crainic、J. Hogle和M. Girard,《欧洲分子生物学组织杂志》7:2839 - 2847,1988)以及属于位于蛋白壳内表面的N端序列的残基(E. Moss和V. Racaniello,《欧洲分子生物学组织杂志》10:1067 - 1074,1991)。通过体内方法,我们在经脑内途径接种PV-1/Mahoney一次后,在小鼠中枢神经系统中分离出两个对小鼠具有神经毒性的PV-1突变体。这两个突变体在小鼠中又传代两次,进行噬斑纯化,随后进行表征。两个克隆的突变体Mah-NK13和Mah-NL32保留了亲本PV-1/Mahoney的表型特征,包括表位图谱、热不稳定性和温度敏感性。Mah-NK13表现出比亲本病毒稍小的噬斑。测定了突变体基因组的核苷酸序列,并鉴定了突变。通过单点诱变将突变独立引入亲本PV-1/Mahoney基因组。然后测试突变的PV-1/Mahoney病毒在小鼠中的神经毒性。在Mah-NK13和Mah-NL32基因组中分别鉴定出的衣壳蛋白VP1(Thr-22→Ile)和VP2(Ser-31→Thr)中的单个氨基酸取代,赋予了对小鼠无毒的PV-1/Mahoney小鼠毒力表型。VP1中的Ile-22导致了Mah-NK13的小噬斑表型。这两个突变均在小鼠中枢神经系统的首次传代过程中出现。因此,我们在衣壳蛋白VP1上鉴定出一个新的小鼠适应性决定因素,并且我们表明至少另一种衣壳蛋白VP2也可以表达小鼠适应性决定因素。这两个决定因素都位于病毒衣壳三维结构的内部。它们可能参与受体附着后小鼠神经细胞感染的早期步骤。
