Literature DB >> 15243082

Discovery of novel human and animal cells infected by the severe acute respiratory syndrome coronavirus by replication-specific multiplex reverse transcription-PCR.

Laura Gillim-Ross1, Jill Taylor, David R Scholl, Jared Ridenour, Paul S Masters, David E Wentworth.   

Abstract

The severe acute respiratory syndrome coronavirus (SARS-CoV) is the causative agent of the recent outbreak of severe acute respiratory syndrome. VeroE6 cells, fetal rhesus monkey kidney cells, and human peripheral blood mononuclear cells were the only cells known to be susceptible to SARS-CoV. We developed a multiplex reverse transcription-PCR assay to analyze the susceptibility of cells derived from a variety of tissues and species to SARS-CoV. Additionally, productive infection was determined by titration of cellular supernatants. Cells derived from three species of monkey were susceptible to SARS-CoV. However, the levels of SARS-CoV produced differed by 4 log(10). Mink lung epithelial cells (Mv1Lu) and R-Mix, a mixed monolayer of human lung-derived cells (A549) and mink lung-derived cells (Mv1Lu), are used by diagnostic laboratories to detect respiratory viruses (e.g., influenza virus); they were also infected with SARS-CoV, indicating that the practices of diagnostic laboratories should be examined to ensure appropriate biosafety precautions. Mv1Lu cells produce little SARS-CoV compared to that produced by VeroE6 cells, which indicates that they are a safer alternative for SARS-CoV diagnostics. Evaluation of cells permissive to other coronaviruses indicated that these cell types are not infected by SARS-CoV, providing additional evidence that SARS-CoV binds an alternative receptor. Analysis of human cells derived from lung, kidney, liver, and intestine led to the discovery that human cell lines were productively infected by SARS-CoV. This study identifies new cell lines that may be used for SARS-CoV diagnostics and/or basic research. Our data and other in vivo studies indicate that SARS-CoV has a wide host range, suggesting that the cellular receptor(s) utilized by SARS-CoV is highly conserved and is expressed by a variety of tissues.

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Year:  2004        PMID: 15243082      PMCID: PMC446305          DOI: 10.1128/JCM.42.7.3196-3206.2004

Source DB:  PubMed          Journal:  J Clin Microbiol        ISSN: 0095-1137            Impact factor:   5.948


  37 in total

1.  Characterization of a novel coronavirus associated with severe acute respiratory syndrome.

Authors:  Paul A Rota; M Steven Oberste; Stephan S Monroe; W Allan Nix; Ray Campagnoli; Joseph P Icenogle; Silvia Peñaranda; Bettina Bankamp; Kaija Maher; Min-Hsin Chen; Suxiong Tong; Azaibi Tamin; Luis Lowe; Michael Frace; Joseph L DeRisi; Qi Chen; David Wang; Dean D Erdman; Teresa C T Peret; Cara Burns; Thomas G Ksiazek; Pierre E Rollin; Anthony Sanchez; Stephanie Liffick; Brian Holloway; Josef Limor; Karen McCaustland; Melissa Olsen-Rasmussen; Ron Fouchier; Stephan Günther; Albert D M E Osterhaus; Christian Drosten; Mark A Pallansch; Larry J Anderson; William J Bellini
Journal:  Science       Date:  2003-05-01       Impact factor: 47.728

2.  The Genome sequence of the SARS-associated coronavirus.

Authors:  Marco A Marra; Steven J M Jones; Caroline R Astell; Robert A Holt; Angela Brooks-Wilson; Yaron S N Butterfield; Jaswinder Khattra; Jennifer K Asano; Sarah A Barber; Susanna Y Chan; Alison Cloutier; Shaun M Coughlin; Doug Freeman; Noreen Girn; Obi L Griffith; Stephen R Leach; Michael Mayo; Helen McDonald; Stephen B Montgomery; Pawan K Pandoh; Anca S Petrescu; A Gordon Robertson; Jacqueline E Schein; Asim Siddiqui; Duane E Smailus; Jeff M Stott; George S Yang; Francis Plummer; Anton Andonov; Harvey Artsob; Nathalie Bastien; Kathy Bernard; Timothy F Booth; Donnie Bowness; Martin Czub; Michael Drebot; Lisa Fernando; Ramon Flick; Michael Garbutt; Michael Gray; Allen Grolla; Steven Jones; Heinz Feldmann; Adrienne Meyers; Amin Kabani; Yan Li; Susan Normand; Ute Stroher; Graham A Tipples; Shaun Tyler; Robert Vogrig; Diane Ward; Brynn Watson; Robert C Brunham; Mel Krajden; Martin Petric; Danuta M Skowronski; Chris Upton; Rachel L Roper
Journal:  Science       Date:  2003-05-01       Impact factor: 47.728

3.  Mechanisms and enzymes involved in SARS coronavirus genome expression.

Authors:  Volker Thiel; Konstantin A Ivanov; Ákos Putics; Tobias Hertzig; Barbara Schelle; Sonja Bayer; Benedikt Weißbrich; Eric J Snijder; Holger Rabenau; Hans Wilhelm Doerr; Alexander E Gorbalenya; John Ziebuhr
Journal:  J Gen Virol       Date:  2003-09       Impact factor: 3.891

4.  Evaluation of reverse transcription-PCR assays for rapid diagnosis of severe acute respiratory syndrome associated with a novel coronavirus.

Authors:  W C Yam; K H Chan; L L M Poon; Y Guan; K Y Yuen; W H Seto; J S M Peiris
Journal:  J Clin Microbiol       Date:  2003-10       Impact factor: 5.948

5.  Isolation and characterization of viruses related to the SARS coronavirus from animals in southern China.

Authors:  Y Guan; B J Zheng; Y Q He; X L Liu; Z X Zhuang; C L Cheung; S W Luo; P H Li; L J Zhang; Y J Guan; K M Butt; K L Wong; K W Chan; W Lim; K F Shortridge; K Y Yuen; J S M Peiris; L L M Poon
Journal:  Science       Date:  2003-09-04       Impact factor: 47.728

6.  Unique and conserved features of genome and proteome of SARS-coronavirus, an early split-off from the coronavirus group 2 lineage.

Authors:  Eric J Snijder; Peter J Bredenbeek; Jessika C Dobbe; Volker Thiel; John Ziebuhr; Leo L M Poon; Yi Guan; Mikhail Rozanov; Willy J M Spaan; Alexander E Gorbalenya
Journal:  J Mol Biol       Date:  2003-08-29       Impact factor: 5.469

7.  Clinical progression and viral load in a community outbreak of coronavirus-associated SARS pneumonia: a prospective study.

Authors:  J S M Peiris; C M Chu; V C C Cheng; K S Chan; I F N Hung; L L M Poon; K I Law; B S F Tang; T Y W Hon; C S Chan; K H Chan; J S C Ng; B J Zheng; W L Ng; R W M Lai; Y Guan; K Y Yuen
Journal:  Lancet       Date:  2003-05-24       Impact factor: 79.321

8.  Newly discovered coronavirus as the primary cause of severe acute respiratory syndrome.

Authors:  Thijs Kuiken; Ron A M Fouchier; Martin Schutten; Guus F Rimmelzwaan; Geert van Amerongen; Debby van Riel; Jon D Laman; Ton de Jong; Gerard van Doornum; Wilina Lim; Ai Ee Ling; Paul K S Chan; John S Tam; Maria C Zambon; Robin Gopal; Christian Drosten; Sylvie van der Werf; Nicolas Escriou; Jean-Claude Manuguerra; Klaus Stöhr; J S Malik Peiris; Albert D M E Osterhaus
Journal:  Lancet       Date:  2003-07-26       Impact factor: 79.321

9.  SARS-coronavirus replicates in mononuclear cells of peripheral blood (PBMCs) from SARS patients.

Authors:  Lanjuan Li; Jianer Wo; Junbing Shao; Haihong Zhu; Nanping Wu; Minwei Li; Hangpin Yao; Minjun Hu; Reinhard H Dennin
Journal:  J Clin Virol       Date:  2003-12       Impact factor: 3.168

10.  Aetiology: Koch's postulates fulfilled for SARS virus.

Authors:  Ron A M Fouchier; Thijs Kuiken; Martin Schutten; Geert van Amerongen; Gerard J J van Doornum; Bernadette G van den Hoogen; Malik Peiris; Wilina Lim; Klaus Stöhr; Albert D M E Osterhaus
Journal:  Nature       Date:  2003-05-15       Impact factor: 49.962
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  53 in total

1.  The severe acute respiratory syndrome coronavirus nucleocapsid protein is phosphorylated and localizes in the cytoplasm by 14-3-3-mediated translocation.

Authors:  Milan Surjit; Ravinder Kumar; Rabi N Mishra; Malireddy K Reddy; Vincent T K Chow; Sunil K Lal
Journal:  J Virol       Date:  2005-09       Impact factor: 5.103

Review 2.  The molecular biology of coronaviruses.

Authors:  Paul S Masters
Journal:  Adv Virus Res       Date:  2006       Impact factor: 9.937

Review 3.  Role of cell culture for virus detection in the age of technology.

Authors:  Diane S Leland; Christine C Ginocchio
Journal:  Clin Microbiol Rev       Date:  2007-01       Impact factor: 26.132

4.  The Severe Acute Respiratory Syndrome Coronavirus Nucleocapsid Inhibits Type I Interferon Production by Interfering with TRIM25-Mediated RIG-I Ubiquitination.

Authors:  Yong Hu; Wei Li; Ting Gao; Yan Cui; Yanwen Jin; Ping Li; Qingjun Ma; Xuan Liu; Cheng Cao
Journal:  J Virol       Date:  2017-03-29       Impact factor: 5.103

5.  Severe acute respiratory syndrome coronavirus infection of human ciliated airway epithelia: role of ciliated cells in viral spread in the conducting airways of the lungs.

Authors:  Amy C Sims; Ralph S Baric; Boyd Yount; Susan E Burkett; Peter L Collins; Raymond J Pickles
Journal:  J Virol       Date:  2005-12       Impact factor: 5.103

6.  Molecular characterization of a new species in the genus Alphacoronavirus associated with mink epizootic catarrhal gastroenteritis.

Authors:  Anastasia N Vlasova; Rebecca Halpin; Shiliang Wang; Elodie Ghedin; David J Spiro; Linda J Saif
Journal:  J Gen Virol       Date:  2011-02-23       Impact factor: 3.891

7.  The severe acute respiratory syndrome coronavirus 3a protein up-regulates expression of fibrinogen in lung epithelial cells.

Authors:  Yee-Joo Tan; Puay-Yoke Tham; Daphne Z L Chan; Chih-Fong Chou; Shuo Shen; Burtram C Fielding; Timothy H P Tan; Seng Gee Lim; Wanjin Hong
Journal:  J Virol       Date:  2005-08       Impact factor: 5.103

8.  SARS-like WIV1-CoV poised for human emergence.

Authors:  Vineet D Menachery; Boyd L Yount; Amy C Sims; Kari Debbink; Sudhakar S Agnihothram; Lisa E Gralinski; Rachel L Graham; Trevor Scobey; Jessica A Plante; Scott R Royal; Jesica Swanstrom; Timothy P Sheahan; Raymond J Pickles; Davide Corti; Scott H Randell; Antonio Lanzavecchia; Wayne A Marasco; Ralph S Baric
Journal:  Proc Natl Acad Sci U S A       Date:  2016-03-14       Impact factor: 11.205

Review 9.  Detection of respiratory viruses using non-molecular based methods.

Authors:  Christine C Ginocchio
Journal:  J Clin Virol       Date:  2007-11       Impact factor: 3.168

10.  Pathogenicity of severe acute respiratory coronavirus deletion mutants in hACE-2 transgenic mice.

Authors:  Marta L Dediego; Lecia Pewe; Enrique Alvarez; Maria Teresa Rejas; Stanley Perlman; Luis Enjuanes
Journal:  Virology       Date:  2008-05-02       Impact factor: 3.616
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