Pei Yanlong, Hodgins Douglas C, Lee Changhee, Calvert Jay G, Welch Siao-Kun W, Jolie Rika, Keith Marcia, Yoo Dongwan
Department of Pathobiology, University of Guelph, Guelph, Ontario, Canada.
Virus Res. 2008 Jul;135(1):107-14. doi: 10.1016/j.virusres.2008.02.012. Epub 2008 Apr 9.
PRRSV (porcine reproductive and respiratory syndrome virus) nucleocapsid (N) protein is the most abundant structural protein of the virus. During infection, the N protein is specifically localized to the nucleus and nucleolus in addition to its normal cytoplasmic distribution. Previously, a nuclear localization signal (NLS, 41-PGKK(N/S)KKKN)-null mutant virus (41-PGGGNKKKN) showed reduced viremia and increased production of neutralizing antibodies in infected pigs. However, the mutagenized NLS underwent strong selection pressure in the pig that resulted in partial or complete reversion and reacquisition of NLS function, and thus the biological effect of the NLS-null mutation needed further investigation. In the present study, a total of 9 "reversion resistant" mutants were generated by amino acid deletions and substitutions using an infectious cDNA clone. Two mutant clones (PG--SKKKS and PG--S-KKS) that produced progeny viruses were genetically stable for at least 20 passages in cell culture. Infection of pigs with those mutants induced neutralizing antibodies to higher titers than with wild-type virus. Both mutant viruses induced viremia of lower titer and of shorter duration than wild-type virus. RT-PCR from tonsils showed that both mutants persisted at a reduced level. Virus transmission to contact pigs was also lower in the mutant virus infected groups. No reversion to functional NLS was detected in either mutant from any pig. These data demonstrate that N protein nuclear localization is indeed associated with viral pathogenesis and host response to PRRS.
猪繁殖与呼吸综合征病毒(PRRSV)核衣壳(N)蛋白是该病毒中含量最丰富的结构蛋白。在感染过程中,N蛋白除了正常的细胞质分布外,还特异性定位于细胞核和核仁。此前,一种核定位信号(NLS,41 - PGKK(N/S)KKKN)缺失突变病毒(41 - PGGGNKKKN)在感染猪时显示出病毒血症降低以及中和抗体产生增加。然而,诱变后的NLS在猪体内受到强大的选择压力,导致部分或完全回复突变并重新获得NLS功能,因此NLS缺失突变的生物学效应需要进一步研究。在本研究中,使用感染性cDNA克隆通过氨基酸缺失和替换共产生了9个“抗回复突变”突变体。两个产生子代病毒的突变克隆(PG--SKKKS和PG--S-KKS)在细胞培养中至少传代20次时遗传稳定。用这些突变体感染猪诱导产生的中和抗体滴度高于野生型病毒。两种突变病毒诱导的病毒血症滴度均低于野生型病毒,且持续时间更短。扁桃体的RT-PCR显示两种突变体的持续水平均降低。突变病毒感染组中病毒向接触猪的传播也较低。在任何猪的两种突变体中均未检测到向功能性NLS的回复突变。这些数据表明N蛋白的核定位确实与病毒发病机制以及宿主对PRRS的反应相关。
