TY - JOUR
T1 - The L gene of J paramyxovirus plays a critical role in viral pathogenesis
AU - Li, Zhuo
AU - Xu, Jie
AU - Chen, Zhenhai
AU - Gao, Xiudan
AU - Wang, Lin Fa
AU - Basler, Christopher
AU - Sakamoto, Kaori
AU - He, Biao
PY - 2013/12
Y1 - 2013/12
N2 - J paramyxovirus (JPV) was first isolated from moribund mice with hemorrhagic lung lesions in Australia in the 1970s. Recent sequencing of JPV (JPV-LW) confirms that JPV is a paramyxovirus with several unique features. However, neither JPV-LW nor a recombinant JPV based on its sequence (rJPV-LW) caused obvious illness in mice. In this work, we analyzed a different JPV isolate (JPV-BH), which behaved differently from JPV-LW; JPV-BH grew more slowly in Vero cells and had less of a cytopathic effect on tissue culture cells but caused severe disease in mice. We have determined the whole genome sequence of JPV-BH. There were several nucleotide sequence differences between JPV-BH and JPV-LW, one in the leader sequence, one in the GX gene, and three in the L gene. The high sequence identity between JPV-BH and JPV-LW suggests that JPV-BH and JPV-LW are the same virus strain but were obtained at different passages from different laboratories. To understand the roles of these nucleotide sequence differences in pathogenicity in mice, we generated a recombinant JPV-BH strain (rJPV-BH) and hybrid rJPV-BH strains with sequences from the leader sequence (rJPV-BH-Le-LW), the GX gene (rJPV-BH-GX-LW), and the L gene (rJPV-BH-L-LW) of JPV-LW and compared their pathogenicities in mice. We have found that rJPV-BH-L-LW was attenuated in mice, indicating that nucleotide sequence differences in the L gene play a critical role in pathogenesis.
AB - J paramyxovirus (JPV) was first isolated from moribund mice with hemorrhagic lung lesions in Australia in the 1970s. Recent sequencing of JPV (JPV-LW) confirms that JPV is a paramyxovirus with several unique features. However, neither JPV-LW nor a recombinant JPV based on its sequence (rJPV-LW) caused obvious illness in mice. In this work, we analyzed a different JPV isolate (JPV-BH), which behaved differently from JPV-LW; JPV-BH grew more slowly in Vero cells and had less of a cytopathic effect on tissue culture cells but caused severe disease in mice. We have determined the whole genome sequence of JPV-BH. There were several nucleotide sequence differences between JPV-BH and JPV-LW, one in the leader sequence, one in the GX gene, and three in the L gene. The high sequence identity between JPV-BH and JPV-LW suggests that JPV-BH and JPV-LW are the same virus strain but were obtained at different passages from different laboratories. To understand the roles of these nucleotide sequence differences in pathogenicity in mice, we generated a recombinant JPV-BH strain (rJPV-BH) and hybrid rJPV-BH strains with sequences from the leader sequence (rJPV-BH-Le-LW), the GX gene (rJPV-BH-GX-LW), and the L gene (rJPV-BH-L-LW) of JPV-LW and compared their pathogenicities in mice. We have found that rJPV-BH-L-LW was attenuated in mice, indicating that nucleotide sequence differences in the L gene play a critical role in pathogenesis.
UR - http://www.scopus.com/inward/record.url?scp=84887202942&partnerID=8YFLogxK
U2 - 10.1128/JVI.02039-13
DO - 10.1128/JVI.02039-13
M3 - Article
C2 - 24067956
AN - SCOPUS:84887202942
SN - 0022-538X
VL - 87
SP - 12990
EP - 12998
JO - Journal of Virology
JF - Journal of Virology
IS - 23
ER -