Author: Chan, Paul K.S.; To, Kaâ€Fai; Lo, Anthony W.I.; Cheung, Jo L.K.; Chu, Ida; Au, Florence W.L.; Tong, Joanna H.M.; Tam, John S.; Sung, Joseph J.Y.; Ng, Hoâ€Keung
Title: Persistent infection of SARS coronavirus in colonic cells in vitro Cord-id: l3a3polk Document date: 2004_7_13
ID: l3a3polk
Snippet: Severe acute respiratory syndrome coronavirus (SARSâ€CoV) can produce gastrointestinal symptoms. The intestinal tract is the only extrapulmonary site where viable viruses have been detected. This study examined seven established human intestinal cell lines, DLDâ€1, HCTâ€116, HTâ€29, LoVo, LSâ€180, SWâ€480 and SWâ€620, for their permissiveness to SARSâ€CoV infection. The results showed that only LoVo cells were permissive to SARSâ€CoV infection as evident by positive findings from indire
Document: Severe acute respiratory syndrome coronavirus (SARSâ€CoV) can produce gastrointestinal symptoms. The intestinal tract is the only extrapulmonary site where viable viruses have been detected. This study examined seven established human intestinal cell lines, DLDâ€1, HCTâ€116, HTâ€29, LoVo, LSâ€180, SWâ€480 and SWâ€620, for their permissiveness to SARSâ€CoV infection. The results showed that only LoVo cells were permissive to SARSâ€CoV infection as evident by positive findings from indirect immunofluorescence staining for intracellular viral antigens, in situ hybridization for intracellular viral RNA, and electron microscopy for intracellular viral particles. In contrast to Vero cells, SARSâ€CoV did not produce cytopathic effects on LoVo cells. However, LoVo cells were found to be highly permissive for productive infection with a high viral titre (>3 × 10(7) viral copies/ml) produced in culture supernatant following a few days of incubation. SARSâ€CoV established a stable persistent chronic infection that could be maintained after multiple passages. Being a cell line of human origin, LoVo cells could be a useful in vitro model for studying the biology and persistent infection of SARSâ€CoV. Our results on the expression of angiotensinâ€converting enzyme 2 (ACE2), a recently identified cellular receptor for SARSâ€CoV, in these cell lines indicated that it might not be the sole determinant for cells to be susceptible to SARSâ€CoV infection. J. Med. Virol. 74:1–7, 2004. © 2004 Wileyâ€Liss, Inc.
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