Ward L A, Rosen B I, Yuan L, Saif L J
Department of veterinary Preventive Medicine, Ohio Agricultural Research and Development Center, The Ohio State University, Wooster, USA.
J Gen Virol. 1996 Jul;77 ( Pt 7):1431-41. doi: 10.1099/0022-1317-77-7-1431.
Gnotobiotic (Gn) pigs were orally inoculated with Wa strain (G1P1A[P8]) human rotavirus (Wa HRV) serially passaged in Gn pigs (virulent) or cell culture (attenuated) to determine the median virus infectious dose (ID50) and to assess the site of infection and type and progression of morphological lesions and clinical responses induced by these two strains in Gn pigs. The ID50 of virulent Wa HRV was = or < 1 f.f.u. whereas the infectivity of attenuated Wa HRV had to be determined by seroconversion and was approximately 1.3 x 1O(6) f.f.u. Diarrhoea developed at 13 h post-inoculation (p.i.) in pigs inoculated with approximately 1O(5) f.f.u. of virulent Wa HRV and correlated with the presence of viral antigen within villous epithelial cells; villous atrophy developed later at 24 h p.i. and correlated with peak faecal viral titres; recovery from disease correlated with the return of morphologically normal villi. Virus, diarrhoea and villous atrophy were not detected in pigs inoculated with approximately 2 x 10(8)f.f.u. attenuated Wa HRV although HRV-specific serum antibodies were present by 7 days p.i. These findings demonstrate that virulent Wa HRV infection in Gn pigs occurs primarily within intestinal villous epithelial cells with villous atrophy developing as a sequela to infection. However, factors other than villous atrophy appear to contribute to the early stages of HRV-associated disease expression in Gn pigs. The ability of the attenuated virus to elicit virus-neutralizing serum antibodies without disease or pathology indicates promise in the use of such strains for oral immunization.
将无菌动物(Gn)猪口服接种在Gn猪中连续传代(强毒株)或细胞培养(减毒株)的Wa株(G1P1A[P8])人轮状病毒(Wa HRV),以确定病毒半数感染剂量(ID50),并评估这两种毒株在Gn猪中引起的感染部位、形态学病变类型及进展和临床反应。强毒株Wa HRV的ID50等于或小于1个蚀斑形成单位(f.f.u.),而减毒株Wa HRV的感染性必须通过血清转化来确定,约为1.3×10⁶ f.f.u.。接种约10⁵ f.f.u.强毒株Wa HRV的猪在接种后13小时(p.i.)出现腹泻,且与绒毛上皮细胞内病毒抗原的存在相关;绒毛萎缩在接种后24小时较晚出现,与粪便病毒滴度峰值相关;疾病恢复与形态学上正常绒毛的恢复相关。接种约2×10⁸ f.f.u.减毒株Wa HRV的猪未检测到病毒、腹泻和绒毛萎缩,尽管在接种后7天出现了HRV特异性血清抗体。这些发现表明,Gn猪中的强毒株Wa HRV感染主要发生在肠道绒毛上皮细胞内,绒毛萎缩是感染的后遗症。然而,除绒毛萎缩外的其他因素似乎也促成了Gn猪中HRV相关疾病表达的早期阶段。减毒病毒在不引起疾病或病理的情况下引发病毒中和血清抗体的能力表明,使用此类毒株进行口服免疫具有前景。
