T-cell responses to MERS coronavirus infection in people with occupational exposure to dromedary camels in Nigeria: an observational cohort study
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Title
T-cell responses to MERS coronavirus infection in people with occupational exposure to dromedary camels in Nigeria: an observational cohort study
Subject
Description
Middle East respiratory syndrome (MERS) remains of global public health concern. Dromedary camels are the source of zoonotic infection. Over 70% of MERS coronavirus (MERS-CoV)-infected dromedaries are found in Africa but no zoonotic disease has been reported in Africa. We aimed to understand whether individuals with exposure to dromedaries in Africa had been infected by MERS-CoV.
A response to this article was published:
A response to this article was published:
- Perlman, Stanley, and Alimuddin Zumla. 2020. "MERS-CoV in Africa: an enigma with relevance to COVID-19." The Lancet Infectious Diseases.
Date
2020-10-06
Type
Citation
Mok, Chris Ka Pun, Airu Zhu, Jingxian Zhao, Eric H. Y. Lau, Junxiang Wang, Zhao Chen, Zhen Zhuang, Yanqun Wang, Abeer N. Alshukairi, Salim A. Baharoon, Wenling Wang, Wenjie Tan, Weiwen Liang, Jamiu O. Oladipo, Ranawaka A. P. M. Perera, Sulyman A. Kuranga, Malik Peiris, and Jincun Zhao. 2020. "T-cell responses to MERS coronavirus infection in people with occupational exposure to dromedary camels in Nigeria: an observational cohort study." The Lancet Infectious Diseases.
Abstract
Background
Middle East respiratory syndrome (MERS) remains of global public health concern. Dromedary camels are the source of zoonotic infection. Over 70% of MERS coronavirus (MERS-CoV)-infected dromedaries are found in Africa but no zoonotic disease has been reported in Africa. We aimed to understand whether individuals with exposure to dromedaries in Africa had been infected by MERS-CoV.
Methods
Workers slaughtering dromedaries in an abattoir in Kano, Nigeria, were compared with abattoir workers without direct dromedary contact, non-abattoir workers from Kano, and controls from Guangzhou, China. Exposure to dromedaries was ascertained using a questionnaire. Serum and peripheral blood mononuclear cells (PBMCs) were tested for MERS-CoV specific neutralising antibody and T-cell responses.
Findings
None of the participants from Nigeria or Guangdong were MERS-CoV seropositive. 18 (30%) of 61 abattoir workers with exposure to dromedaries, but none of 20 abattoir workers without exposure (p=0·0042), ten non-abattoir workers or 24 controls from Guangzhou (p=0·0002) had evidence of MERS-CoV-specific CD4+ or CD8+ T cells in PBMC. T-cell responses to other endemic human coronaviruses (229E, OC43, HKU-1, and NL-63) were observed in all groups with no association with dromedary exposure. Drinking both unpasteurised camel milk and camel urine was significantly and negatively associated with T-cell positivity (odds ratio 0·07, 95% CI 0·01–0·54).
Interpretation
Zoonotic infection of dromedary-exposed individuals is taking place in Nigeria and suggests that the extent of MERS-CoV infections in Africa is underestimated. MERS-CoV could therefore adapt to human transmission in Africa rather than the Arabian Peninsula, where attention is currently focused.
Funding
The National Science and Technology Major Project, National Institutes of Health.
Accessibility
Free online on Lancet site.
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