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

doi:10.1016/s1386-6532(03)00195-1

. 2003 Dec;28(3):239-44.

doi: 10.1016/s1386-6532(03)00195-1.

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

Lanjuan Li¹, Jianer Wo, Junbing Shao, Haihong Zhu, Nanping Wu, Minwei Li, Hangpin Yao, Minjun Hu, Reinhard H Dennin

Affiliations

Affiliation

¹ Key Laboratory of Infectious Diseases, Ministry of Public Health of China, Institute of Infectious Diseases, First Affiliated Hospital, Medical College, Zhejiang University, Qingchun Road 79, Hangzhou, Zhejiang 310003, China.

PMID: 14522061
PMCID: PMC7128964
DOI: 10.1016/s1386-6532(03)00195-1

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

Lanjuan Li et al. J Clin Virol. 2003 Dec.

. 2003 Dec;28(3):239-44.

doi: 10.1016/s1386-6532(03)00195-1.

Authors

Lanjuan Li¹, Jianer Wo, Junbing Shao, Haihong Zhu, Nanping Wu, Minwei Li, Hangpin Yao, Minjun Hu, Reinhard H Dennin

Affiliation

¹ Key Laboratory of Infectious Diseases, Ministry of Public Health of China, Institute of Infectious Diseases, First Affiliated Hospital, Medical College, Zhejiang University, Qingchun Road 79, Hangzhou, Zhejiang 310003, China.

PMID: 14522061
PMCID: PMC7128964
DOI: 10.1016/s1386-6532(03)00195-1

Abstract

Background: The etiologic agent of severe acute respiratory syndrome (SARS) is a recently identified, positive single-stranded RNA (ssRNA) coronavirus (SARS-CoV). Little is known about the dynamic changes of the viral replicative form in SARS cases.

Objectives: Evaluate whether SARS-CoV can infect and replicate in peripheral blood mononuclear cells (PBMCs) of infected persons and reveal any dynamic changes to the virus during the course of the disease.

Study design: Peripheral blood mononuclear cells collected from SARS cases infected by the same infectious source were tested for both negative-stranded RNA (minus-RNA, "replicative intermediates") and positive-stranded RNA (genomic RNA) of SARS-CoV during the course of hospitalization by reverse transcription-polymerase chain reaction (RT-PCR).

Results: SARS-CoV minus-RNA was detected in PBMCs from SARS patients. The viral replicative forms in PBMCs were detectable during a period of 6 days post-onset of the disease, while the plus-RNA were detectable for a longer period (8-12 days post-onset).

Conclusions: SARS-coronavirus can infect and replicate within PBMCs of SARS patients, but viral replication in PBMCs seems subject to self-limitation.

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Figures

**Fig. 1**
Electrophoresis results of RT/nested-PCR of samples collected from three SARS patients on day 1 (A, B), on day 2 (C) and on day 5 (D) following admission to hospital. (A) Detection of SARS-CoV genomic RNA using antisense primers in RT-reaction. (B–D) Detection of SARS-CoV replicative intermediate *minus*-RNA using sense primers in RT-reaction. M: 100 bp DNA ladder. Lanes 1 and 2: Patient 1. Lanes 3 and 4: Patient 2. Lanes 5 and 6: Patient 3. Lanes 7 and 8: normal control. Lanes with odd numbers are from plasma and lanes of even numbers from PBMCs. The expected size of *plus*- and *minus*-PCR products was 110 bp.

**Fig. 2**
Timeline of events and SARS-CoV RNA markers in the course of SARS cases.

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References

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1. Bernhard-Nocht Institute, Hamburg, Germany; 9 April 2003 at http://www.bni-hamburg.de/.
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[1] Baric R.S., Yount B. Subgenomic negative-strand RNA function during mouse hepatitis virus infection. J. Virol. 2000;74:4039–4046. - PMC - PubMed

[2] Baric R.S., Yount B. Subgenomic negative-strand RNA function during mouse hepatitis virus infection. J. Virol. 2000;74:4039–4046. - PMC - PubMed

[3] Bernhard-Nocht Institute, Hamburg, Germany; 9 April 2003 at http://www.bni-hamburg.de/.

[4] Bernhard-Nocht Institute, Hamburg, Germany; 9 April 2003 at http://www.bni-hamburg.de/.

[5] Lai MMC, Holmes KV. In: Knipe DM, Howley PM, editors. Fields virology. 4th ed. New York: Lippincott Williams and Wilkins; 2001 [Chapter 35].

[6] Lai MMC, Holmes KV. In: Knipe DM, Howley PM, editors. Fields virology. 4th ed. New York: Lippincott Williams and Wilkins; 2001 [Chapter 35].

[7] Lee N., Hui D., Wu A. A major outbreak of severe acute respiratory syndrome in Hong Kong. N. Engl. J. Med. 2003;348:1986–1994. - PubMed

[8] Lee N., Hui D., Wu A. A major outbreak of severe acute respiratory syndrome in Hong Kong. N. Engl. J. Med. 2003;348:1986–1994. - PubMed

[9] Marra MA, Steven JM, Jones SJM, Caroline R, Astell CR, et al. The genome sequence of the sars-associated coronavirus. Science 1 May 2003 at http://www.sciencexpress.org/ 1 May 2003/Page 1/10.1126/science.1085953.

[10] Marra MA, Steven JM, Jones SJM, Caroline R, Astell CR, et al. The genome sequence of the sars-associated coronavirus. Science 1 May 2003 at http://www.sciencexpress.org/ 1 May 2003/Page 1/10.1126/science.1085953.

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

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

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