Reddi Honey V, Lipton Howard L
Department of Neurology, Evanston Hospital, Illinois 60201, USA.
J Virol. 2002 Aug;76(16):8400-7. doi: 10.1128/jvi.76.16.8400-8407.2002.
The mechanisms by which Theiler's murine encephalomyelitis virus (TMEV) binds and enters host cells and the molecules involved are not completely understood. In this study, we demonstrate that the high-neurovirulence TMEV GDVII virus uses the glycosaminoglycan heparan sulfate (HS) as an attachment factor that is required for efficient infection. Studies based on soluble HS-mediated inhibition of attachment and infection, removal of HS with specific enzymes, and blocking with anti-HS antibodies establish that HS mediates GDVII virus entry into mammalian cells. Data from defined proteoglycan-deficient Chinese hamster ovary mutant cells further support the role of HS in GDVII infection and indicate that the extent of sulfation is critical for infection. Neuraminidase treatment of proteoglycan-deficient cells restores permissiveness to GDVII virus, indicating that sialic acid hinders direct access of virus to the protein entry receptor. A model of the potential steps in GDVII virus entry into mammalian cells involving HS is proposed.
泰勒氏鼠脑脊髓炎病毒(TMEV)结合并进入宿主细胞的机制以及所涉及的分子尚未完全明确。在本研究中,我们证明高神经毒力的TMEV GDVII病毒利用糖胺聚糖硫酸乙酰肝素(HS)作为高效感染所需的附着因子。基于可溶性HS介导的附着和感染抑制、用特定酶去除HS以及用抗HS抗体阻断的研究表明,HS介导GDVII病毒进入哺乳动物细胞。来自特定蛋白聚糖缺陷型中国仓鼠卵巢突变细胞的数据进一步支持了HS在GDVII感染中的作用,并表明硫酸化程度对感染至关重要。对蛋白聚糖缺陷细胞进行神经氨酸酶处理可恢复其对GDVII病毒的易感性,表明唾液酸会阻碍病毒直接接触蛋白质进入受体。本文提出了一个涉及HS的GDVII病毒进入哺乳动物细胞的潜在步骤模型。