key: cord-0968328-ouwki5wv authors: Ottogalli, María Emilia; Rodríguez, Pamela Elizabeth; Frutos, María Celia; Moreno, Laura Beatriz; Ghietto, Lucía María; Cuffini, Cecilia Gabriela; Cámara, Jorge Augusto; Adamo, María Pilar; Valinotto, Laura Elena; Cámara, Alicia title: Circulation of human coronaviruses OC43 and 229E in Córdoba, Argentina date: 2021-01-25 journal: Arch Virol DOI: 10.1007/s00705-020-04914-x sha: ebe8b461ee1da44fc0d7a961a4f9a4355a1c5eb1 doc_id: 968328 cord_uid: ouwki5wv This is the first study of respiratory infections in Córdoba, Argentina, caused by endemic human coronavirus (HCoV)-OC43 and HCOV-229E, which circulated during 2011-2012 at a 3% rate, either as single or multiple infections. They were detected mainly in children, but HCoV-229E was also found in adults. HCoV-229E was detected in five out of 631 samples (0.8%), and HCoV-OC43 was found in 14 out of 631 (2.2%) samples. Clinical manifestations ranged from fever to respiratory distress, and a significant association of HCoV-229E with asthma was observed. Further studies and surveillance are needed to provide better clinical insights, early diagnosis, and medical care of patients, as well as to contribute to epidemiology modeling and prevention. Viral acute respiratory infections (ARIs) are common and are one of the main causes of morbimortality worldwide. Young children, the elderly, patients with chronic diseases, and the immunosuppressed are at greatest risk, and in general, ARIs have direct and indirect costs for families, health services, and the global community [1] [2] [3] [4] [5] [6] [7] [8] [9] . Not only do viruses responsible for ARI have a major impact on human health, but they also continue to emerge, and as a consequence, their diagnosis and surveillance constitutes a milestone for the public health system. Diagnostic methods based on molecular biology have allowed the identification of a number of human viruses, including human metapneumoviruses (HMPVs), human rhinoviruses (HRVs), human enteroviruses (HEVs), human coronaviruses (HCoVs) and human bocaviruses (HBoVs) [10, 11] . In recent decades, epidemics related to emergent coronaviruses have occurred: Severe acute respiratory syndrome due to SARS-CoV in 2002-2003, Middle East respiratory syndrome caused by MERS-CoV (2012, cases continue till present), and the new coronavirus causing COVID-19, SARS-CoV-2, which reached pandemic level on March 11, 2020 [12] [13] [14] [15] [16] . Recombination events are responsible for the emergence of these new strains [12, 14] , which are zoonotic, gain the ability to be transmitted from person to person, and are associated with a high mortality rate. As a result, studies on coronaviruses have intensified recently, although these viruses have been known since the 1930s, and human coronaviruses responsible for a major proportion of respiratory tract infections globally were identified already in 1965 [17] . Coronaviruses are ssRNA+ viruses. Transmission occurs via the respiratory and fecal-oral routes [18, 19] . HCoVs are distributed worldwide, but the frequency and associated pathogenicity are unclear and are highly dependent on the case series studied, since the rate of detection can vary depending on the type of respiratory sample collected, the sensitivity of the diagnostic assay, and the years and seasons when patients were recruited [20] . The most common serotypes are HCoV-OC43 and HcoV-229E. It has been reported that they both show a marked seasonality, with infections more common during the winter (December through April in the Northern Hemisphere); however, HCoV-229E is sometimes only sporadically detected, and its circulation is Handling Editor: John Ziebuhr. significantly different each year [19, 21] . Both cause mildto-severe respiratory infections, including pneumonia and bronchiolitis [22, 23] , and they are the second-most frequently detected agent causing the common cold, after HRV [5, 7] . HCOVs have also been associated with asthma and bronchitic hyperactivity, even in non-atopic patients [24] . HCoV-OC43 is more frequently detected and is often found to be the only pathogen in patients with lower ARI, while HCoV-229E has been associated with infections of immunocompromised individuals [19] . HCoV infections have been studied in infants of Buenos Aires, where they were detected in 2% of patients, always in coinfection with another viral agent [10] . On the other hand, a study in Australia shows that these two coronaviruses (mainly HCoV-OC43) were the most common causes of influenza-like illness in children [25] . Yet, data on HCoV infection, its diagnosis, its clinical significance, and particularly, its circulation and seasonality in the Southern Hemisphere are scarce, with most of the data pertaining to countries in the Northern Hemisphere. Data from Argentina, which is located in the temperate zone of the Southern Hemisphere, are therefore of interest. Coronaviruses have not been studied in Córdoba, and its detection has not been included in the routine diagnostic panel for ARI, even though it would contribute to differential diagnosis, handling and treatment of patients, and surveillance. Therefore, the goal of this study was to investigate the presence of endemic HCoV, using molecular techniques, in hospitalized children and adult patients with symptoms of ARI in Córdoba, Argentina. Córdoba is a Mediterranean province located in the center of Argentina (latitude: 31° 24′ 48″ S, elevation: 395 m). We investigated the circulation and frequency of HCoV-OC43 and HCoV-229E (including seasonality, age distribution, and coinfections with other common respiratory agents) during two consecutive calendar years and identified clinical manifestations associated with infection. An observational, retrospective, descriptive, cross-sectional study was carried out. We analyzed nasopharyngeal aspirate (NPA) or nasopharyngeal swab (NPS) samples, obtained from patients 0 to 65 years old, hospitalized for ARI in public and private health centers in Córdoba in 2011 and 2012. The clinical specimens were handled and assayed following normal biosafety procedures and Argentina Ministry of Health recommendations implemented since the influenza A H1N1 virus pandemic in 2009. Patients were examined by a physician to identify lower respiratory infection (laryngitis, bronchiolitis, pneumonia). Patients with chronic lung disease or previous comorbidity were excluded from the study. In total, 631 patients were studied; 375 cases occurred during 2011 and 256 occurred during 2012. Nucleic acids were extracted using a commercial kit according to the indications of the manufacturer (Axygen Scientific, Inc.). RNA extracts were used as template in a reverse transcription polymerase chain reaction (RT-PCR) assay for virus detection, using the a SuperScript III One- Step qRT-PCR System with Platinum Taq DNA Polymerase (Invitrogen), following a cycling protocol described elsewhere [26] . Specific primers targeting the M protein coding region were used for HCoV-OC43 and HcoV-229E, producing amplicons of 334 bp and 574 bp, respectively [26] . Frequency distribution was analyzed using the statistical program Infostat 2019 (https ://www.infos tat.com.ar/) including tests for significance of differences observed based on chi-square (α: 0.05). HCoV was detected in 19 out of 631 patients, indicating a prevalence of 3.0%. The virus types and yearly distribution are shown in Table 1 . HCoV-229E was detected in the autumn (April and May), earlier than HCoV-OC43, which was prevalent through the fall and winter period (March-August; Fig. 1 ), but there was no statistically significant difference between the frequency in 2011 and that in 2012 (p = 0.82) or between species (HCoV-OC43, p = 0.79; HCoV-229E, p = 0.99). HCoV-OC43 was found only in children, 13 of which were 0-5 years old and one of which was in the group of 6-to 14-year-olds, while HCoV-229E was detected at the extremes of the age range analyzed, with three patients in the 0-to 5-year-old group and two in the oldest group (39-65 years). An analysis of co-circulation of HCoV with other respiratory viruses revealed evidence for both single infections and multiple infections. Co-detections occurred with RSV, HMPV, influenza A virus (Flu A) and influenza B virus (Flu B) ( Table 2) . We then analyzed the association of HCoV infection with clinical manifestations such as recurrent obstructive bronchopathy (ROB), cyanosis, BQL, ARI, respiratory distress syndrome (RDS), community-acquired pneumonia (CAP), whooping cough or pertussis-like syndrome (PLS), pneumonia, asthma and bronchitis. No association was found when the two HCoVs were analyzed together in the year 2012 or both years combined, but HCoV-229E was significantly associated with asthma during 2011 (p = 0.0361). This study confirms the circulation of HCoV-OC43 and HCoV-229E in Córdoba during the years 2011-2012. The general prevalence was 3%. The frequency of HCoV-OC43 was 2.4% in 2011 and 2.0% in 2012; HCoV-229E was detected less frequently; 0.8% in both 2011 and 2012. This detection rate in a wide-age-range group of patients including adults is similar to that reported in infants in Buenos Aires (2%) and France (3%) [10, 26] . The positive cases occurred during March-August, with no statistically significant difference in circulation during 2011 and 2012. However, the HCoV infection frequency can vary depending on geographical location [22] . Statistical differences were detected in HCoV-OC43 circulation during 2009-2010 and 2011, but HCoV-229E circulation was similar when evaluated on a biennial basis [21] . Thus, in order to obtain reliable estimates to provide quality epidemiological information, it is necessary to maximize the study sample size and time period [27] . Most of the HCoV-OC43-and HCoV-229E-positive patients were children (0 to 14 years old), coinciding with reports showing that these viruses mainly infect children less than 5 years old [28] . However HCoV-229E was also detected in adults by us and by other authors [29] . The estimated infection rate depends on the inclusion criteria for sampling: when studies are performed with hospitalized patients only, there may be an underestimate of the infection rate, while the severity of disease is overestimated. The detection HCoV at a higher rate in young children may be related to the fact that children are taken by their parents to be examined and are admitted to the hospital even when symptoms are mild, while adults themselves consult less, and therefore epidemiological data and the clinical picture of infection are limited for adults [21, 22] . HCoV-OC43 and HCoV-229E were found in single infections and coinfections, including double and triple infections. Coinfections with RSV are generally the most frequent [19, 30] , as was seen in the present study, but importantly for the local context, about 50% of the cases were single infections. To analyze the role of HCoV in respiratory pathology, we tested the statistical significance of HCoV-Oc43 and HCoV-229E association with respiratory diseases. We found a significant association only between HCoV-229E and asthma exacerbation in children, in agreement with other authors [31] . Regarding the clinical and epidemiological relevance of endemic coronaviruses, in a previously reported outbreak of human respiratory infection associated with HCoV-NL63, three out of 20 geriatric patients died [32] , making epidemiological surveillance necessary in order to improve diagnosis, treatment, and prevention. The rapid and specific methods for diagnosis of ARI that are currently available have an impact on patient management and allow prevention measures to be implemented to control the spread of the agent, including intra-hospital, intrafamily and community dissemination, as well as providing information about viral strains circulating in the community [33] . This demonstrates the cost/benefit balance of performing diagnosis and incorporating these agents in the routine panel. Rapid diagnosis of respiratory viruses in hospitalized patients can result in a reduction of up to 50% in the length of the hospital stay, up to 30% in the use of ineffective, high-cost and inappropriate antibiotics, which increases bacterial resistance, and 20% in the use of other unnecessary diagnostic procedures [34, 35] . Thus, our results can contribute to better management of ARI. This is the first study of respiratory infections caused by HCoVs in Córdoba, Argentina. HCoV-OC43 and HCoV-229E circulated in Córdoba during 2011-2012 and were detected in 3% of clinical cases during the cold months (March through August) as single or multiple infections. Infections occurred mainly in children less than 5 years old, but HCoV-229E was also detected in adults and was significantly associated with asthma. 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