Literature detail

Heart-nosed bat alphacoronaviruses use human CEACAM6 to enter cells.

Giulia Gallo^1,2 Antonello Di Nardo¹ Doreen Lugano³ Adam J Roberts⁴ Bernadette Ataku Kutima³ Moses Okombo⁵ Aghnianditya Kresno Dewantari^1,6 Florence M M Buckley² Gavin J Wright⁴ James Nyagwange³ Bernard Agwanda⁷ Stephen C Graham⁸ Dalan Bailey⁹

Affiliations 9 institutions

The Pirbright Institute, Woking, UK.
Department of Pathology, University of Cambridge, Cambridge, UK.
KEMRI-Wellcome Trust Research Programme, Kilifi, Kenya.
Hull York Medical School, Department of Biology, York Biomedical Research Institute, University of York, York, UK.
Loisaba Conservancy, Nanyuki, Kenya.
Department of Infectious Disease, Faculty of Medicine, Imperial College London, London, UK.
Department of Zoology, National Museum of Kenya, Nairobi, Kenya.
Department of Pathology, University of Cambridge, Cambridge, UK. [email protected].
The Pirbright Institute, Woking, UK. [email protected].

PMID 42020746 2026 Nature eng aheadofprint

PubMed DOI Browse context

Article

Publication summary

Identifying viruses with zoonotic potential on the basis of their ability to enter human cells is a critical component of pandemic prediction, prevention and preparedness. Here using a computational approach that retains maximum phylogenetic diversity, we selected an optimal subset of alphacoronavirus spike proteins to screen against broad coronavirus receptor libraries. Most of the selected spike proteins did not use any of the established coronavirus receptors. However, the pseudotyped spike protein of Cardioderma cor (heart-nosed bat) coronavirus KY43 (CcCoV-KY43) could enter human cells. Using a recombinant CcCoV receptor-binding domain (RBD) and a human receptor screening platform, we identified direct interactions with the human CEACAM proteins CEACAM3, CEACAM5 and CEACAM6. Overexpression of human CEACAM6-a protein widely expressed in the human lung-conferred permissivity to otherwise refractory human cells. A crystal structure showed that the RBD binds the amino-terminal IgV-like domain of human CEACAM6. Immune surveillance studies using sera of individuals from the Taveta region of Kenya, where CcCoV-KY43 was identified, did not show significant evidence of recent spillover. Wider characterization of alphacoronaviruses related to CcCoV-KY43 showed that human CEACAM6 is used by two other CcCoVs collected in Kenya. Moreover, there was more restricted nonhuman CEACAM6 tropism for viruses isolated from Rhinolophus bats from Russia and China. Thus, alphacoronaviruses that use CEACAM6 are probably geographically widespread, and viruses from East Africa show potential for transmission to humans.

Structured evidence records

Evidence records

5 total

Molecular Adaptation 2 records

Molecular Adaptation Extraction confidence 0.90

Key finding

The spike receptor-binding domain of heart-nosed bat alphacoronavirus CcCoV-KY43 binds human CEACAM6 to mediate entry into human cells.

Virus

Host

Location

Supporting text

The pseudotyped spike protein of Cardioderma cor (heart-nosed bat) coronavirus KY43 (CcCoV-KY43) could enter human cells, and a recombinant CcCoV receptor-binding domain bound directly to human CEACAM6, enabling cell entry.

Genes or proteins: spike; receptor-binding domain (RBD)
Receptors: CEACAM6
Mechanism types: receptor_binding; cell_entry

Molecular Adaptation Extraction confidence 0.80

Key finding

Two additional heart-nosed bat alphacoronaviruses from Kenya were also found to use human CEACAM6 for cell entry, suggesting convergent adaptation to this receptor.

Virus

Host

Location

Supporting text

Wider characterization of alphacoronaviruses related to CcCoV-KY43 showed that human CEACAM6 is used by two other CcCoVs collected in Kenya.

Genes or proteins: spike
Receptors: CEACAM6
Mechanism types: receptor_binding; cell_entry

Genomic Evolution 1 records

Genomic Evolution Extraction confidence 0.80

Key finding

Phylogenetically diverse alphacoronavirus spike sequences, including those from the heart-nosed bat coronavirus CcCoV-KY43, were analyzed and grouped, showing that related East African viruses form a lineage that can use human CEACAM6.

Virus

Host

Location

Supporting text

Using a computational approach that retains maximum phylogenetic diversity, we selected an optimal subset of alphacoronavirus spike proteins to screen against broad coronavirus receptor libraries. Wider characterization of alphacoronaviruses related to CcCoV-KY43 showed that human CEACAM6 is used by two other CcCoVs collected in Kenya.

Genes or proteins: spike
Analysis methods: phylogenetic diversity analysis; comparative genomic characterization

Receptor Usage 1 records

Receptor Usage Extraction confidence 1.00

Key finding

Heart-nosed bat alphacoronavirus CcCoV-KY43 uses human CEACAM6 as an entry receptor.

Virus

Host

Location

Supporting text

The pseudotyped spike protein of Cardioderma cor (heart-nosed bat) coronavirus KY43 (CcCoV-KY43) could enter human cells. Using a recombinant CcCoV receptor-binding domain and a human receptor screening platform, we identified direct interactions with the human CEACAM proteins CEACAM3, CEACAM5 and CEACAM6. Overexpression of human CEACAM6 conferred permissivity to otherwise refractory human cells, and crystal structure showed that the RBD binds the amino-terminal IgV-like domain of human CEACAM6.

Method: receptor screening; pseudovirus assay; crystal structure analysis
Receptors: CEACAM6

Serological Evidence 1 records

Serological Evidence Extraction confidence 0.70

Key finding

Serological testing of human sera from Taveta, Kenya, found no antibody evidence for recent infection or spillover of heart-nosed bat coronavirus CcCoV-KY43.

Virus

Host

Location

Supporting text

Immune surveillance studies using sera of individuals from the Taveta region of Kenya, where CcCoV-KY43 was identified, did not show significant evidence of recent spillover.

Sample type: sera

Citation context

References

82 references

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PMID 34096963	Zoonotic spillover: understanding basic aspects for better prevention	Ellwanger	2021
PMID 1350662	Human aminopeptidase N is a receptor for human coronavirus 229E	Yeager	1992
-	The human coronavirus HCoV-229E S-protein structure and receptor binding. eLife	Li	2019
PMID 22876187	Structural bases of coronavirus attachment to host aminopeptidase N and its inhibition by neutralizing antibodies	Reguera	2012
PMID 17093189	M., Schittone, S. A. & Holmes, K. V. Mutational analysis of aminopeptidase N, a receptor for several group 1 coronaviruses, identifies key determinants of viral host range	Tusell	2007
PMID 15897467	Human coronavirus NL63 employs the severe acute respiratory syndrome coronavirus receptor for cellular entry	Hofmann	2005
PMID 23486063	Dipeptidyl peptidase 4 is a functional receptor for the emerging human coronavirus-EMC	Raj	2013
PMID 25926653	Human coronavirus HKU1 spike protein uses O-acetylated sialic acid as an attachment receptor determinant and employs hemagglutinin-esterase protein as a receptor-destroying enzyme	Huang	2015
PMID 3380803	Human and bovine coronaviruses recognize sialic acid-containing receptors similar to those of influenza C viruses	Vlasak	1988
PMID 37879362	TMPRSS2 is a functional receptor for human coronavirus HKU1	Saunders	2023
PMID 41073662	Dipeptidase 1 is a functional receptor for a porcine coronavirus	Dufloo	2025
PMID 1648219	K., Jiang, G. S. & Holmes, K. V. Receptor for mouse hepatitis virus is a member of the carcinoembryonic antigen family of glycoproteins	Williams	1991
PMID 21670291	Crystal structure of mouse coronavirus receptor-binding domain complexed with its murine receptor	Peng	2011
PMID 19085326	Selecting taxa to save or sequence: desirable criteria and a greedy solution	Bordewich	2008
PMID 36350631	Introducing the Bacterial and Viral Bioinformatics Resource Center (BV-BRC): a resource combining PATRIC, IRD and ViPR	Olson	2023
PMID 40587580	Resolving the APN controversy in PEDV infection: comparative kinetic characterization through single-virus tracking	An	2025
PMID 39747691	Receptor-binding proteins from animal viruses are broadly compatible with human cell entry factors	Dufloo	2025
PMID 19239771	Detection of novel SARS-like and other coronaviruses in bats from Kenya	Tong	2009
PMID 22561208	Genomic characterization of seven distinct bat coronaviruses in Kenya	Tao	2012
PMID 35922511	A physical wiring diagram for the human immune system	Shilts	2022
-	The Human Cell Atlas. eLife	Regev	2017
PMID 37291214	An integrated cell atlas of the lung in health and disease	Sikkema	2023
-	Acinetobacter baumannii targets human carcinoembryonic antigen-related cell adhesion molecules (CEACAMs) for invasion of pneumocytes. mSystems	Ambrosi	2020
PMID 24735478	K., Schuhmacher, T. & Hauck, C. R. Signaling by epithelial members of the CEACAM family—mucosal docking sites for pathogenic bacteria	Tchoupa	2014
PMID 17525800	CEACAM6 acts as a receptor for adherent-invasive E. coli, supporting ileal mucosa colonization in Crohn disease	Barnich	2007
-	Binding of Candida albicans to human CEACAM1 and CEACAM6 modulates the inflammatory response of intestinal epithelial cells. mBio	Klaile	2017
PMID 26483485	A., Günther, S., Beadenkopf, R., Beckett, D. & Sundberg, E	Bonsor	2015
PMID 29170370	Receptor-binding loops in alphacoronavirus adaptation and evolution	Wong	2017
PMID 1719235	Cloning of the mouse hepatitis virus (MHV) receptor: expression in human and hamster cell lines confers susceptibility to MHV	Dveksler	1991
-	The IUCN Red List of Threatened Species (IUCN, 2017)	Monadjem	2017
PMID 38600530	Substantial viral diversity in bats and rodents from East Africa: insights into evolution, recombination, and cocirculation. Microbiome 12, 72 (2024)	Wang	2024
PMID 27252529	Time-dependent rate phenomenon in viruses	Aiewsakun	2016
PMID 23596293	O., Chu, D. K., Peiris, J. S., Kosakovsky Pond, S. L. & Poon, L. L. A case for the ancient origin of coronaviruses	Wertheim	2013
PMID 40844272	O., Suchard, M. A., Holmes, E. C. & Lemey, P. Recent advances in the inference of deep viral evolutionary history	Mifsud	2025
PMID 23613906	Widespread divergence of the CEACAM/PSG genes in vertebrates and humans suggests sensitivity to selection	Chang	2013
PMID 28893191	Recent expansion and adaptive evolution of the carcinoembryonic antigen family in bats of the Yangochiroptera subgroup. BMC Genomics 18, 717 (2017)	Kammerer	2017
PMID 37684236 In OmniVira	Panoramic analysis of coronaviruses carried by representative bat species in Southern China to better understand the coronavirus sphere.	Han	2023
PMID 39841419 In OmniVira	Identification of a new alphacoronavirus (Coronaviridae: <i>Alphacoronavirus</i>) associated with the greater horseshoe bat (<i>Rhinolophus ferrumequinum</i>) in the south of European part of Russia.	Lenshin	2024
-	Targeted genomic sequencing with probe capture for discovery and surveillance of coronaviruses in bats. eLife	Kuchinski	2022
PMID 33770472	Animal reservoirs and hosts for emerging Alphacoronaviruses and Betacoronaviruses	Ghai	2021
PMID 37259914	Preparing for the next viral threat with broad-spectrum antivirals	Karim	2023
PMID 33574335	T., Sandbrink, J. B. & Cherian, N. G. Promoting versatile vaccine development for emerging pandemics. NPJ Vaccines 6, 26 (2021)	Monrad	2021
PMID 37120646 In OmniVira	Virus diversity, wildlife-domestic animal circulation and potential zoonotic viruses of small mammals, pangolins and zoo animals.	Cui	2023
PMID 28077633 In OmniVira	Surveillance of Bat Coronaviruses in Kenya Identifies Relatives of Human Coronaviruses NL63 and 229E and Their Recombination History.	Tao	2017
PMID 26378164	Evidence for an ancestral association of human coronavirus 229E with bats	Corman	2015
PMID 19956667	S., Kirchner, E., Guglielmi, K. M. & Stehle, T	Dermody	2009
PMID 34172731 In OmniVira	Divide-and-conquer: machine-learning integrates mammalian and viral traits with network features to predict virus-mammal associations.	Wardeh	2021
PMID 19901337	Crystal structure of NL63 respiratory coronavirus receptor-binding domain complexed with its human receptor	Wu	2009
PMID 23329690	MAFFT multiple sequence alignment software version 7: improvements in performance and usability	Katoh	2013
PMID 31062021	M., Standley, D. M. & Katoh, K. MAFFT-DASH: integrated protein sequence and structural alignment	Rozewicki	2019
PMID 25398609	E., Wang, Y., Huang, H., McGarvey, P. B. & Wu, C. H. UniRef clusters: a comprehensive and scalable alternative for improving sequence similarity searches	Suzek	2015
PMID 32011700	IQ-TREE 2: new models and efficient methods for phylogenetic inference in the genomic era	Minh	2020
PMID 29077904	T., Chernomor, O., von Haeseler, A., Minh, B. Q. & Vinh, L. S. UFBoot2: improving the ultrafast bootstrap approximation	Hoang	2018
PMID 30016406	ape 5.0: an environment for modern phylogenetics and evolutionary analyses in R	Paradis	2019
-	Conservation evaluation and phylogenetic diversity	Daniel	1992
PMID 34859135 In OmniVira	Production of Recombinant Replication-defective Lentiviruses Bearing the SARS-CoV or SARS-CoV-2 Attachment Spike Glycoprotein and Their Application in Receptor Tropism and Neutralisation Assays.	Thakur	2021
PMID 25787280	Receptor usage and cell entry of porcine epidemic diarrhea coronavirus	Liu	2015
-	Data from: Heart-nosed bat alphacoronaviruses use human CEACAM6 to enter cells. Zenodo	Gallo	2026
PMID 18296487	M., Söllner, C., Schuster-Boeckler, B., Bateman, A. & Wright, G	Bushell	2008
PMID 31613878 In OmniVira	Resurrection of the ancestral RH5 invasion ligand provides a molecular explanation for the origin of P. falciparum malaria in humans.	Galaway	2019
PMID 22342946	A benchmarked protein microarray-based platform for the identification of novel low-affinity extracellular protein interactions	Sun	2012
PMID 22942393	Generation of a dual-functional split-reporter protein for monitoring membrane fusion using self-associating split GFP	Ishikawa	2012
PMID 36476349	Serum immunoglobulin G and mucosal immunoglobulin A antibodies from prepandemic samples collected in Kilifi, Kenya, neutralize SARS-CoV-2 in vitro. Int	Nyagwange	2023
PMID 29533234	DIALS: implementation and evaluation of a new integration package	Winter	2018
PMID 23793146	How good are my data and what is the resolution? Acta Crystallogr	Evans	2013
PMID 19461840	Phaser crystallographic software	McCoy	2007
PMID 38718835	Accurate structure prediction of biomolecular interactions with AlphaFold 3	Abramson	2024
PMID 36322415	Putting AlphaFold models to work with phenix.process_predicted_model and ISOLDE	Oeffner	2022
PMID 29872003	ISOLDE: a physically realistic environment for model building into low-resolution electron-density maps	Croll	2018
PMID 20124702	PHENIX: a comprehensive Python-based system for macromolecular structure solution	Adams	2010
PMID 20383002	Features and development of Coot	Emsley	2010
PMID 29067766	MolProbity: more and better reference data for improved all-atom structure validation	Williams	2018
PMID 35637307	ColabFold: making protein folding accessible to all	Mirdita	2022
PMID 29942656	Bayesian phylogenetic and phylodynamic data integration using BEAST 1.10	Suchard	2018
PMID 11319253	A general empirical model of protein evolution derived from multiple protein families using a maximum-likelihood approach	Whelan	2001
PMID 16177232	Choosing appropriate substitution models for the phylogenetic analysis of protein-coding sequences	Shapiro	2006
PMID 16683862	J., Ho, S. Y., Phillips, M	Drummond	2006
PMID 23180580	Improving Bayesian population dynamics inference: a coalescent-based model for multiple loci	Gill	2013
PMID 19779555	Bayesian phylogeography finds its roots	Lemey	2009
-	HIPSTR: highest independent posterior subtree reconstruction in TreeAnnotator X	Baele	2025
PMID 32881101	UCSF ChimeraX: structure visualization for researchers, educators, and developers	Pettersen	2021
PMID 17681537	Inference of macromolecular assemblies from crystalline state	Krissinel	2007

Evidence overview

Evidence 5

Types 4

Virus 2

Host 2

Evidence types

Molecular Adaptation 2 Genomic Evolution 1 Receptor Usage 1 Serological Evidence 1

Linked entities

Viruses

Hosts

Locations

Publication metadata

Journal: Nature
Volume / Issue / Pages: - / - / -
ISSN: 1476-4687
Journal country: England
DOI: 10.1038/s41586-026-10394-x