Literature detail

Clade C MERS-CoV camel strains vary in protease utilization during viral entry.

Helena Winstone^1,2 Helen Stillwell^1,2 Li Hui Tan³ Noam A Cohen^3,4 Ranawaka A P M Perera^1,2 Susan R Weiss^1,2

Affiliations 4 institutions

Department of Microbiology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA 19104.
Penn Center for Research on Emerging Viruses, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA 19104.
Department of Otorhinolaryngology-Head and Neck Surgery, Division of Rhinology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA 19104.
Department of Surgery, Corporal Michael J. Crescenz Department of Veterans Affairs Medical Center, Philadelphia, PA 19104.

PMID 41920873 2026 Proc Natl Acad Sci U S A eng ppublish

Article

Publication summary

Middle East Respiratory Syndrome coronavirus (MERS-CoV) is a lethal pathogen with pandemic potential. Clade A and B MERS-CoV viruses have caused outbreaks in the Middle East since 2012 when they initially spilled over from camels to humans. Clade C viruses, however, are only found in camels across Africa and the spillover potential of these viruses seems to be lower than for clade A/B strains but remains to be fully understood. Here, we report that clade C spikes are less well-cleaved at the S1/S2 boundary than clade A or B viral spikes and that most clade C spikes induce reduced syncytium formation. Additionally, we demonstrate that several East African clade C strains are less able to utilize the TMPRSS2-mediated pathway for viral entry in both cell lines and primary nasal epithelial cultures. We map the molecular basis of this reduced TMPRSS2 usage to the N-terminal domain and subdomain 2 of East African clade C MERS-CoV. We suggest that reduced usage of the TMPRSS2-mediated entry pathway may underlie the reduced replication of East African clade C strains in humans, while the reduced replication of West African strains remains to be further investigated. Altered protease usage may contribute to differential tropism of East African clade C strains and indicate geographically distinct selection pressures on spike between MERS-CoV strains circulating in camels.

coronaviruses MERS-CoV camel reservoir pandemic potential viral entry virus–host interaction Camelus Coronavirus Infections Middle East Respiratory Syndrome Coronavirus Peptide Hydrolases Serine Endopeptidases Virus Internalization Animals Humans Spike Glycoprotein, Coronavirus TMPRSS2 protein, human

Structured evidence records

Evidence records

3 total

Genomic Evolution 1 records

Genomic Evolution Extraction confidence 0.70

Key finding

Sequence variation in the spike gene of East African clade C MERS-CoV relative to clade A/B strains defines reduced TMPRSS2-mediated entry and suggests evolutionary divergence in spike under distinct camel-associated selection pressures.

Virus

Host

Location

Supporting text

We report that clade C spikes are less well-cleaved at the S1/S2 boundary than clade A or B viral spikes and map the molecular basis of this reduced TMPRSS2 usage to the N-terminal domain and subdomain 2 of East African clade C MERS-CoV, indicating geographically distinct selection pressures on spike between MERS-CoV strains circulating in camels.

Genes or proteins: spike; S1/S2 boundary; N-terminal domain; subdomain 2
Analysis methods: comparative genomic analysis; molecular mapping of spike determinants

Molecular Adaptation 1 records

Molecular Adaptation Extraction confidence 0.95

Key finding

East African clade C MERS-CoV camel strains show reduced cleavage at the spike S1/S2 boundary and decreased TMPRSS2-mediated viral entry, indicating molecular adaptation that may limit replication in human cells.

Virus

Host

Location

Supporting text

We report that clade C spikes are less well-cleaved at the S1/S2 boundary than clade A or B viral spikes and that several East African clade C strains are less able to utilize the TMPRSS2-mediated pathway for viral entry in both cell lines and primary nasal epithelial cultures.

Genes or proteins: spike
Host factors: TMPRSS2
Mechanism types: cell_entry; protease_usage; tropism; replication_efficiency

Receptor Usage 1 records

Receptor Usage Extraction confidence 0.95

Key finding

East African clade C MERS-CoV strains show reduced TMPRSS2-mediated viral entry compared with clade A/B viruses, suggesting altered protease usage mechanisms.

Virus

Host

Location

Supporting text

Several East African clade C strains are less able to utilize the TMPRSS2-mediated pathway for viral entry in both cell lines and primary nasal epithelial cultures.

Method: cell culture infection assay
Receptors: TMPRSS2

Citation context

References

44 references

Reference network

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Evidence overview

Evidence 3

Types 3

Virus 1

Host 2

Evidence types

Genomic Evolution 1 Molecular Adaptation 1 Receptor Usage 1

Linked entities

Viruses

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Publication metadata

Journal: Proceedings of the National Academy of Sciences of the United States of America
Volume / Issue / Pages: 123 / 14 / e2525313123
ISSN: 1091-6490
Journal country: United States
DOI: 10.1073/pnas.2525313123