Tucker P C, Strauss E G, Kuhn R J, Strauss J H, Griffin D E
Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205.
J Virol. 1993 Aug;67(8):4605-10. doi: 10.1128/JVI.67.8.4605-4610.1993.
Many alphaviruses cause more severe disease in young animals than in older animals. The age-dependent resistance to severe disease is determined primarily by maturation of the host, but strains of virus can be selected that overcome the increased resistance of mature animals. Sindbis virus (SV) strain AR339 causes fatal encephalitis in newborn mice and nonfatal encephalitis in weanling mice, whereas NSV, a neuroadapted strain of SV, causes fatal encephalitis in weanling as well as newborn mice. We have previously shown that the E2 glycoprotein of NSV contained His-55, whereas AR339 E2 had Gln-55 (S. Lustig, A. C. Jackson, C. S. Hahn, D. E. Griffin, E. G. Strauss, and J. H. Strauss, J. Virol. 62:2329-2336, 1988) and that SV with E2 containing Gly-172 was more virulent for newborn mice than SV with E2 containing Arg-172 (P. C. Tucker and D. E. Griffin, J. Virol. 65:1551-1557, 1991). Here we tested the virulence for both newborn and older mice of SV containing a number of different amino acids at E2 position 55 (His, Gln, Lys, Arg, Glu, Gly) in combination with both Gly-172 and Arg-172. All the viruses were virulent for newborn mice, but the residues at both 55 and 172 influenced the virulence of the virus, and there were differences in virulence observed among the various viruses. However, only viruses with His-55 were fully virulent for 14-day-old mice, and this virulence was independent of the residue at position 172. Virus with Lys-55 was virulent for 7-day-old mice, although slightly attenuated relative to His-55. Viruses with His-55 grew more rapidly and to higher titer in the brains of 7- and 14-day-old mice, in N18 neuroblastoma cells, and in BHK cells. Our data suggest that His-55 is important for neurovirulence in older mice and acts by increasing the efficiency of virus replication.
许多甲病毒在幼龄动物中引起的疾病比在老龄动物中更严重。年龄依赖性的对严重疾病的抵抗力主要由宿主的成熟度决定,但可以选择能克服成熟动物增强的抵抗力的病毒株。辛德毕斯病毒(SV)AR339株在新生小鼠中引起致命性脑炎,在断奶小鼠中引起非致命性脑炎,而NSV是一种经神经适应的SV株,在断奶小鼠和新生小鼠中均引起致命性脑炎。我们先前已表明,NSV的E2糖蛋白含有His-55,而AR339 E2含有Gln-55(S. Lustig、A. C. Jackson、C. S. Hahn、D. E. Griffin、E. G. Strauss和J. H. Strauss,《病毒学杂志》62:2329 - 2336,1988年),并且E2含有Gly-172的SV对新生小鼠的毒性比E2含有Arg-172的SV更强(P. C. Tucker和D. E. Griffin,《病毒学杂志》65:1551 - 1557,1991年)。在此,我们测试了在E2第55位含有多种不同氨基酸(His、Gln、Lys、Arg、Glu、Gly)并与Gly-172和Arg-172组合的SV对新生小鼠和老龄小鼠的毒力。所有病毒对新生小鼠都具有毒性,但55位和172位的残基都会影响病毒的毒力,并且在各种病毒之间观察到毒力存在差异。然而,只有含有His-55的病毒对14日龄小鼠具有完全毒力,并且这种毒力与172位的残基无关。含有Lys-55的病毒对7日龄小鼠具有毒性,尽管相对于His-55略有减弱。含有His-55的病毒在7日龄和14日龄小鼠的脑内、N18神经母细胞瘤细胞以及BHK细胞中生长更快且滴度更高。我们的数据表明,His-55对老龄小鼠的神经毒力很重要,其作用方式是提高病毒复制效率。