Matthias Licheri scite author profile

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has spread globally, and the number of worldwide cases continues to rise. The zoonotic origins of SARS-CoV-2 and its intermediate and potential spillback host reservoirs, besides humans, remain largely unknown. Because of ethical and experimental constraints and more important, to reduce and refine animal experimentation, we used our repository of well-differentiated airway epithelial cell (AEC) cultures from various domesticated and wildlife animal species to assess their susceptibility to SARS-CoV-2. We observed that SARS-CoV-2 replicated efficiently only in monkey and cat AEC culture models. Whole-genome sequencing of progeny viruses revealed no obvious signs of nucleotide transitions required for SARS-CoV-2 to productively infect monkey and cat AEC cultures. Our findings, together with previous reports of human-to-animal spillover events, warrant close surveillance to determine the potential role of cats, monkeys, and closely related species as spillback reservoirs for SARS-CoV-2.

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Susceptibility of well-differentiated airway epithelial cell cultures from domestic and wildlife animals to SARS-CoV-2

Gultom

Licheri

Laloli

et al. 2020

Preprint

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Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) has spread globally, and the number of cases continues to rise all over the world. Besides humans, the zoonotic origin, as well as intermediate and potential spillback host reservoirs of SARS-CoV-2 are unknown. To circumvent ethical and experimental constraints, and more importantly, to reduce and refine animal experimentation, we employed our airway epithelial cell (AEC) culture repository composed of various domesticated and wildlife animal species to assess their susceptibility to SARS-CoV-2. In this study, we inoculated well-differentiated animal AEC cultures of monkey, cat, ferret, dog, rabbit, pig, cattle, goat, llama, camel, and two neotropical bat species with SARS-CoV-2. We observed that SARS-CoV-2 only replicated efficiently in monkey and cat AEC culture models. Whole-genome sequencing of progeny virus revealed no obvious signs of nucleotide transitions required for SARS-CoV-2 to productively infect monkey and cat epithelial airway cells. Our findings, together with the previously reported human-to-animal spillover events warrants close surveillance to understand the potential role of cats, monkeys, and closely related species as spillback reservoirs for SARS-CoV-2.

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Time-resolved characterization of the innate immune response in the respiratory epithelium of human, porcine, and bovine during influenza virus infection

et al. 2022

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Viral cross-species transmission is recognized to be a major threat to both human and animal health, however detailed information on determinants underlying virus host tropism and susceptibility is missing. Influenza C and D viruses (ICV, IDV) are two respiratory viruses that share up to 50% genetic similarity, and both employ 9-O-acetylated sialic acids to enter a host cell. While ICV infections are mainly restricted to humans, IDV possesses a much broader host tropism and has shown to have a zoonotic potential. This suggests that additional virus–host interactions play an important role in the distinct host spectrum of ICV and IDV. In this study, we aimed to characterize the innate immune response of the respiratory epithelium of biologically relevant host species during influenza virus infection to identify possible determinants involved in viral cross-species transmission. To this end, we performed a detailed characterization of ICV and IDV infection in primary airway epithelial cell (AEC) cultures from human, porcine, and bovine origin. We monitored virus replication kinetics, cellular and host tropism, as well as the host transcriptional response over time at distinct ambient temperatures. We observed that both ICV and IDV predominantly infect ciliated cells, independently from host and temperature. Interestingly, temperature had a profound influence on ICV replication in both porcine and bovine AEC cultures, while IDV replicated efficiently irrespective of temperature and host. Detailed time-resolved transcriptome analysis revealed both species-specific and species uniform host responses and highlighted 34 innate immune-related genes with clear virus-specific and temperature-dependent profiles. These data provide the first comprehensive insights into important common and species-specific virus-host dynamics underlying the distinct host tropism of ICV and IDV, as well as possible determinants involved in viral cross-species transmission.

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Consensus PCR protocols for the detection of amphibian herpesviruses (Batrachovirus)

Licheri

Origgi

2020

J VET Diagn Invest

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Amphibians have been disappearing at an unprecedented rate worldwide. Among the proposed contributing factors are infectious diseases. Investigations have focused mainly on ranavirus and chytrids; however, additional agents may be relevant stressors. Two novel batrachoviruses have been discovered (ranid herpesvirus 3 [RaHV-3] and bufonid herpesvirus 1 [BfHV-1]). Their clinical role is still to be clarified; however, both have been associated with obvious skin lesions in their respective hosts. Herein we present 2 consensus PCR protocols that can be used to detect all of the known and, possibly, yet to be discovered batrachoviruses. We targeted a 200 nt long, highly conserved region of the DNA terminase gene. We established a sensitive protocol, which can detect both European batrachoviruses (European batrachovirus PCR protocol; RaHV-3 and BfHV-1) and a panbatrachovirus PCR protocol detecting all known batrachoviruses, including ranid herpesvirus 1 and 2 (RaHV-1, -2). The limit of detection (LOD) for the European batrachovirus protocol was 101 copies of RaHV-3 and 102 copies of BfHV-1 per reaction. The panbatrachovirus protocol could detect all known batrachoviruses with LODs of 103 (RaHV-3, BfHV-1, RaHV-1) to 104 copies (RaHV-2) per reaction. These novel detection tools can be used as a first line of detection when herpesviral infection in amphibians is suspected, followed by additional PCRs with herpesvirus-specific primers in the case of known viral species, or sequencing as in the case of novel batrachoviruses.

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