key: cord-0819698-l74kc7jx
authors: Carlos, Renata Santiago Alberto; Mariano, Ana Paula Melo; Maciel, Bianca Mendes; Gadelha, Sandra Rocha; de Melo Silva, Mylene; Belitardo, Emilia Maria Medeirosde Andrade; Rocha, Danilo Jobim Passos Gil; de Almeida, João Paulo Pereira; Pacheco, Luis Gustavo Carvalho; Aguiar, Eric Roberto Guimarães Rocha; Fehlberg, Hllytchaikra Ferraz; Albuquerque, George Rego
title: First genome sequencing of SARS‐CoV‐2 recovered from an infected cat and its owner in Latin America
date: 2021-01-29
journal: Transbound Emerg Dis
DOI: 10.1111/tbed.13984
sha: e546f785fd1601ce0f6568807a11a69dc3e4aba2
doc_id: 819698
cord_uid: l74kc7jx

An 11‐year‐old male mixed‐breed cat, with exclusively indoor life, presented 3 cough episodes after the owners tested positive by RT‐PCR for SARS‐CoV‐2. The house is inhabited by 5 people (3 adults and 2 children), and 2 of the adults have shown mild symptoms associated with throat discomfort. The cat was vaccinated, had no history of any previous disease, and tested negative for feline coronavirus (FCoV), feline immunodeficiency virus (FIV) and feline leukaemia virus (FeLV). Rectal sample collected from the cat was positive for SARS‐CoV‐2 by RT‐PCR. Viral genome sequences recovered from human and cat samples showed an average 99.4% sequence identity. This is the first report of genome sequences of SARS‐CoV‐2 recovered from a cat and its owner in Latin America.

Coronaviruses belong to the Coronaviridae family, which comprises a group of enveloped single-stranded RNA viruses. The SARS-CoV-2, which is the causal agent of the new coronavirus disease of 2019 , is closely related to bats and pangolin coronaviruses Zhou et al., 2020) .

Since the World Health Organization declared the pandemic situation related to COVID-19 (WHO, 2020) , different animals, including dogs, minks and felines, were reported to test positive for the SARS-CoV-2. In general, the infected animal can become ill, but the clinical manifestation seems to be mild and self-limited (Belgium OIE, 2020; Davidson, 2020a Davidson, , 2020b Rijksoverheid, 2020; Sit, 2020a Sit, , 2020b .

Cats, due to close contact with humans, have received great attention of studies aimed at detecting the SARS-CoV-2 virus in animals, since the first report in Belgium in March 2020 (Belgium OIE, 2020) . In addition, their angiotensin-converting enzyme 2 (ACE2), used by the virus as receptor and entry route, shares high amino acid sequence identity with human ACE2 (Wan et al., 2020) . Noteworthy, to date, there are no reports of SARS-CoV-2 transmission from cats or dogs to humans.

In fact, since the first report in Belgium, some natural infection cases in cats were reported in Hong Kong (Sit, 2020a) , United States of America (Davidson, 2020b) and France (Sailleau et al., 2020) . In this study, we report the first case of SARS-CoV-2 infection in a cat in Latin America, and describe genomic sequences obtained from the viruses detected in the cat and its owner.

An 11-year-old male mixed-breed cat, with exclusively indoor life, presented 3 cough episodes 2 days after the owners tested positive by RT-PCR for SARS-CoV-2. The house is inhabited by 5 people (3 adults and 2 children), and 2 of the adults have shown mild symptoms associated with throat discomfort, started one week earlier from RT-PCR test. The second cat that inhabited the house was a 9-year-old female cat that is also kept exclusively indoor and did not present any clinical signs. High-quality reads (Phred > 20) larger than 30 nt were aligned to the NCBI's SARS-CoV-2 reference genome MN908947.3 using Bowtie2 allowing 1 mismatch (Langmead & Salzber, 2012) . SAM files were processed using SAMtools (Li et al., 2009 ). Then, de novo contigs assembly was done using SPAdes (Bankevich et al., 2012) with the parameters '-ion-torrent', '--mismatch-correction' e '--sc' set following assembler authors' recommendations for Ion Torrent-derived reads. We discarded contigs smaller than 300 nt. For sequence similarity analysis, contigs were aligned to the SARS-CoV-2 reference genome using BlastN from BLAST package (Altschul et al., 1990) . The SARS-CoV-2 reference genome, the aligned reads and the assembled contigs were loaded in IGV browser (Thorvaldsdóttir et al., 2013) for visual inspection of reads coverage. Consensus of Spike gene was generated mapping reads against reference Spike gene using Bowtie2 and SAMtools through pileup subprogram. Hierarchical clustering was performed based on per cent identity matrix calculated from multiple alignment of Spike gene and plotted as heatmap.

Clustering was performed using the Pearson correlation with mcquitty as grouping method. Multiple alignment was performed using Clustal Omega (https://www.ebi.ac.uk/Tools/ msa/clust alo/).

The two owners and the cat were positive for SARS-CoV-2 by RT-PCR, with cycle threshold (Ct) values of 33.836, 35.834 and 36.657, respectively. Since they presented high Ct values, we decided to perform next-generation sequencing (NGS) using an Amplicon-based strategy, which is more sensitive for complex samples. Indeed, swab samples of one owner and from the cat were submitted to NGS and both yielded recovery of SARS-CoV-2 genomic sequences with high genome coverage. Viral genomes recovered from human and cat samples showed an average 99.4% sequence identity, as seen in Figure 1a . This is the first report of genome sequencing of SARS-CoV-2 in a cat from Latin America. The high sequence identity found suggests that the cat might have been infected by his owner, since the cat lives strictly indoors and it shows clinical signs and a positive RT-PCR test 1 week after the owner showed the first symptoms.

Indeed, identity-based analysis from multiple alignment using Spike glycoprotein gene indicates that the viruses recovered from cat and humans sequenced in this study groups together with SARS-CoV-2 viral genomes identified in other animals, such as those found infecting lion, tiger, cat and dog, and presented low relationship with feline coronavirus (Figure 1b ). In addition, we F I G U R E 1 Genomic analysis of SARS-CoV-2 genomes isolated from cat or human samples. (a) Contig coverage of samples derived from cat or human. Contigs assembled are shown in red segments. Density of reads covering SARS-CoV-2 reference genome is shown in grey. Percentage of coronavirus reference genome covered by assembled contigs or reads are shown within parenthesis. Scale of read density is indicated within brackets. Viral sequences from human and cat showed an average 99.4% sequence identity. (b) Hierarchical clustering based on per cent identity matrix calculated from multiple alignment of Spike gene recovered from SARS-CoV-2 identified in cat or human samples, other mammals and feline coronavirus. Sketch of humans or cat in the clustering indicates the position of the viral species derived from each organism in the clade. NCBI nucleotide or GISAID database accessions are indicated on the heatmap also observed that samples sequenced in this study grouped together in the same clade, reinforcing the close relationship among them (Figure 1b) . Out of this broad cluster in which our sequences are located in our homology-based analysis, we can observe separate clusters of felid SARS-CoV-2 sequences from England, Spain and the USA. This might be related to the different geographical origins, and for the USA sequences NYAD and NYAD1, a different strain infecting cats in the same country could explain why these sequences are in a different cluster. It is worth mentioning that the cat lives in an apartment on the 7th floor and has no contact with any person or any other animal besides the other cat that lives in the house (strictly indoor also), which tested negative for SARS-CoV-2 by RT-PCR.

Further studies also using serological assays could add new evidences about the SARS-CoV-2 infections between felids and its owners in domestic environments. However, in this study, unfortunately, we do not have appropriate equipment and reagents to run serology assay. In addition, there are no data in the literature showing how long specific antibodies last in felids. Therefore, obtaining cat blood at another time to test for the presence of specific antibodies against SARS-CoV-2 could not reflect the animal's infection status at the time when RT-PCR test was performed.

Regarding clinical presentation, the cat showed mild self-limiting clinical signs, as seen in other reports (Belgium OIE, 2020; Davidson, 2020b; Sailleau et al., 2020) . In addition, the cat was positive only in the rectal swab, similar to what occurred in the case reported in France (Sailleau et al., 2020) , suggesting that this sampling site is important for animals, in addition to being easily accessible for the species in question.

Finally, it is important to notice that there is no proof currently that dogs and cats can transmit COVID-19 to humans, and probably, they have no important epidemiological roles on transmission.

In a research conducted in New York City, during the pandemic peak in the city, only 3 cats were positive, in a city full of cats (Davidson, 2000a) . In Wuhan, about 11% of 102 cats were positive in ELISA after the outbreak . Also, there are a low number of diagnosed animals compared with the numbers of cases in humans, showing that the transmission between humans and cats is not common. Considering our report and previous studies, the authors of the present report do not recommend any kind of abandonment of cats or dogs because of SARS-CoV-2, once these animals do not seem to have any role in transmission or infection in humans.

George R. Albuquerque is recipient of research productivity fellowship by Conselho de Desenvolvimento Científico e Tecnológico (CNPq) from Brazil.

There was no conflict of interest with others.

We declare that ethical statement is not applicable.

The data that support the findings of this study are openly available in NCBI SRA database at [https://www.ncbi.nlm.nih.gov/sra], reference number SRR12980649 and SRR12980650. 

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