Hahon N, Booth J A, Eckert H L
Infect Immun. 1973 Mar;7(3):341-51. doi: 10.1128/iai.7.3.341-351.1973.
Attachment and penetration of influenza virus into clone 1-5C-4 cells were quantitatively determined by the immunofluorescent cell-counting assay. Aided by centrifugal force, more than 95% of virus inocula of five representative influenza virus strains (A(0)/PR8, A(1)/Ann Arbor, A(2)/Japan, B/Lee, B/Great Lakes) were attached to cells at a linear rate within 10 min, in contrast to approximately 35% after stationary incubation at 35 C for 2 h. By the former procedure, a proportionality between the number of infected cells and volume of inoculum was revealed which was not evident when stationary incubation was employed. Maximal binding of virus to cells occurred at 0.2 M NaCl. The salt requirement, added to evidence of pH dependence and temperature independence, indicated that the initial virus-cell union involved electrostatic forces. Virus penetration into cells, measured by the insensitivity of virus-cell complexes to antiviral serum, was linear and complete within 15 min at 35 C for all five virus strains tested. Maximal virus penetration occurred at 0.1 to 0.2 M NaCl; the process was pH- and temperature-dependent. Both virus attachment and penetration processes were partially inhibited in the presence of diethylaminoethyl-dextran.
通过免疫荧光细胞计数法对流感病毒吸附并侵入克隆1-5C-4细胞的过程进行了定量测定。在离心力的辅助下,五种代表性流感病毒株(A(0)/PR8、A(1)/安阿伯、A(2)/日本、B/李、B/五大湖)超过95%的接种病毒在10分钟内以线性速率附着于细胞,相比之下,在35℃静止孵育2小时后这一比例约为35%。通过前一种方法,发现感染细胞数量与接种物体积之间存在比例关系,而采用静止孵育时这种关系并不明显。病毒与细胞的最大结合发生在0.2M NaCl条件下。盐需求加上对pH依赖性和温度独立性的证据表明,病毒与细胞的初始结合涉及静电力。通过病毒-细胞复合物对抗病毒血清不敏感来衡量,在35℃下,所有测试的五种病毒株在15分钟内病毒侵入细胞的过程呈线性且完全。最大病毒侵入发生在0.1至0.2M NaCl条件下;该过程依赖于pH和温度。在存在二乙氨基乙基葡聚糖的情况下,病毒吸附和侵入过程均受到部分抑制。
