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Abstract

The pandemic of COVID-19, caused by SARS-CoV-2, is a major global health threat. Epidemiological studies suggest that bats (Rhinolophus affinis) are the natural zoonotic reservoir for SARS-CoV-2. However, the host range of SARS-CoV-2 and intermediate hosts that facilitate its transmission to humans remain unknown. The interaction of coronavirus with its host receptor is a key genetic determinant of host range and cross-species transmission. SARS-CoV-2 uses angiotensin-converting enzyme 2 (ACE2) as the receptor to enter host cells in a species-dependent manner. In this study, we characterized the ability of ACE2 from diverse species to support viral entry. By analyzing the conservation of five residues in two virus-binding hotspots of ACE2 (hotspot 31Lys and hotspot 353Lys), we predicted 80 ACE2 proteins from mammals that could potentially mediate SARS-CoV-2 entry. We chose 48 ACE2 orthologs among them for functional analysis, and showed that 44 of these orthologs-including domestic animals, pets, livestock, and animals commonly found in zoos and aquaria-could bind the SARS-CoV-2 spike protein and support viral entry. In contrast, New World monkey ACE2 orthologs could not bind the SARS-CoV-2 spike protein and support viral entry. We further identified the genetic determinant of New World monkey ACE2 that restricts viral entry using genetic and functional analyses. These findings highlight a potentially broad host tropism of SARS-CoV-2 and suggest that SARS-CoV-2 might be distributed much more widely than previously recognized, underscoring the necessity to monitor susceptible hosts to prevent future outbreaks.

Keywords: ACE2; COVID-19; SARS-CoV-2; host range; intermediate host.

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Conflict of interest statement

The authors declare no competing interest.

Figures

👁 Fig. 1.

Fig. 1.

Phylogenetic analysis of ACE2 orthologs with potential to support SARS-CoV-2 entry and alignment of ACE2 residues at the interface with the viral S protein (12). (A) The interface between the SARS-CoV-2 receptor binding motif (RBM) and human ACE2 (PDB: 6VW1) (22). The hotspot 31K consists of a salt bridge between 31K and 35E, and hotspot 353K consists of a salt bridge between 353K and 38D. 486F of the SARS-CoV-2 RBM inserts into a hydrophobic pocket of M82 of ACE2 to further stabilize hotspot 31K. (B) Critical changes in virus-contacting residues of K31 and K353 hotspots in ACE2 from different host species susceptible to SARS-CoV-2 infection. The sequence logo was generated using WebLogo (). GenBank accession numbers for ACE2 are as follows: NM_001371415.1 (human), AAX63775.1 (civet), KC881004.1 (bat), AB208708 (ferret), NM_001039456 (cat) (23). (C) The sequences of 80 ACE2 proteins () were analyzed and the phylogenetic tree was built. The residues of human ACE2 at the SARS-CoV-2 RBD/ACE2 interface are shown. The five residues constituting 31K and 353K hotspots are highlighted in a red box. The ID number of each species in subsequent experiments is labeled on the right. Only the residues different from human are shown and each amino acid substitution is colored according to its classification as nonconservative (orange), semiconservative (yellow), or conservative (blue), as compared to the human residue. The species highlighted in red were chosen for further functional analysis.

👁 Fig. 2.

Fig. 2.

Binding of the SARS-CoV-2 spike protein to different ACE2 orthologs. (A) Schematic of testing the efficiency of ACE2 orthologs binding with viral spike and the abilities to mediate virus entry. (B) A549 cells were transduced with ACE2 orthologs of the indicated species, incubated with the recombinant S1 domain of SARS-CoV-2 S protein C-terminally fused with Fc, and then stained with goat anti-human IgG (H + L) conjugated to Alexa Fluor 647 for flow cytometry analysis. Binding efficiencies are expressed as the percent of cells positive for S1-Fc among the ACE2 expressing cells from one representative experiment with three replicates. This experiment was independently repeated three times with similar results. The ACE2 orthologs exhibited binding efficiency with S1-Fc < 5% are highlighted in purple. (C) Western blotting of cell lysates of A549 cells transduced with lentiviruses expressing FLAG-tagged ACE2 orthologs. The cell lysates were probed with Flag antibody, followed by incubating with horseradish peroxidase (HRP)-conjugated secondary antibody and developed using SuperSignal West Pico chemiluminescent substrate and the signals were detected using the Luminescent image analyzer (GE Healthcare). Tubulin or actin served as the loading control.

👁 Fig. 3.

Fig. 3.

Functional assessment of ACE2 orthologs mediating SARS-CoV-2 virus entry. (A) A549 cells transduced with lentiviruses expressing ACE2 orthologs were infected with SARS-CoV-2 virus (MOI = 1). Expression of the viral N protein or ACE2 orthologs was visualized by Operetta High Content Imaging System (PerkinElmer). Viral N protein (red) and ACE2 ortholog (green) are shown. Marmoset (#11), tufted capuchin (#12), squirrel monkey (#13), and koala (#32) were nonpermissive to SARS-CoV-2 infection, highlighted in purple. This experiment was independently repeated three times with similar results and the representative images are shown. (B) The images were analyzed and quantified using PerkinElmer Harmony high-content analysis software 4.9. The infection efficiency represents the percentage of SARS-CoV-2–infected cells/ACE2⁺ cells (y axis). The x axis represents ACE2 orthologs. Error bars represent the SD of the mean from one representative experiment with three biological replicate samples and this experiment was independently repeated three times.

👁 Fig. 4.

Fig. 4.

Identification of the species-specific genetic determinants of ACE2 restriction of SARS-CoV-2 entry. (A, Left) Alignment of the contacting residues of human ACE2 (distance cutoff of 4 Å) at the SARS-CoV-2 RBD/ACE2 interface with orthologs from the New World monkeys marmoset (#11) and tufted capuchin (#12). The mutations introduced into marmoset (#11) and tufted capuchin (#12) ACE2 at positions 41 and 42 are indicated in red. (Right) The binding interface of human ACE2 with SARS-CoV-2 RBD surrounding ACE2 Y41 and Q42. Residue Y41 forms hydrogen bonds with T500 and N501 of SARS-CoV-2 RBD, and Q42 can also interact with G446 or Y449 by hydrogen bonds. The differences in ACE2 from New World monkeys may disrupt the hydrogen-bonding interactions and impair the binding with SARS-CoV-2 spike. The PDB ID code of the complex of human ACE2 with SARS-CoV-2 is 6M0J. (B) The WT or humanized ACE2 orthologs expression was confirmed by immunoblotting assay. (C) A549 cells transduced with ACE2 variants were incubated with the S1-Fc, and then stained with goat anti-human IgG (H + L) conjugated to Alexa Fluor 647 for flow cytometry analysis. Binding efficiencies are expressed as the percent of cells positive for S1-Fc among the ACE2-expressing cells. Error bars represent the SD of the mean from one representative experiment with three biological replicate samples. This experiment was independently repeated three times with similar results. (D and E) A549 cells transduced with ACE2 orthologs of the indicated species or mutants were infected with SARS-CoV-2 virus (MOI = 1). The infection was determined and quantified by Operetta High Content Imaging System (PerkinElmer). Error bars represent the SD of the mean from one representative experiment with three biological replicate samples and this experiment was repeated three times. ns, no significance; *, 0.01 < P < 0.05; ***P < 0.001. Significance assessed by one-way ANOVA.

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URL: https://pubmed.ncbi.nlm.nih.gov/33658332/

⇱ Functional and genetic analysis of viral receptor ACE2 orthologs reveals a broad potential host range of SARS-CoV-2 - PubMed

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Abstract

Conflict of interest statement

Figures

References

Publication types

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Substances

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Full Text Sources

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Medical

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