RESUMEN
Systematic wildlife surveillance is important to aid the prevention of zoonotic infections that jeopardize human health and undermine biodiversity. Toxoplasma gondii is an opportunistic zoonotic protozoan that can infect all endothermic vertebrates, causing severe disease in immunocompromised humans and cases of congenital transmission. Humans can be infected by ingestion of raw meat containing bradyzoites or water contaminated by oocysts. In our study, we assessed the potential circulation of Toxoplasma gondii in wild mammals by performing surveillance in the Campania region (southern Italy) and surveyed its presence from 2020 to 2022 within the framework of the Regional Plans for Wildlife Surveillance. In detail, 211 individuals belonging to five wild mammals (wolf, fox, wild boar, badger, and roe deer) underwent necropsy and the organs were analyzed by real-time PCR for the detection of the parasite. Toxoplasma gondii was found in 21.8% (46/211) of the subjects examined. No statistically significant differences were noticed between the prevalence and the host's trophic level or age, rejecting the hypotheses that Toxoplasma gondii will have a higher prevalence in top predators and adult individuals, respectively. Our work emphasized the high circulation of Toxoplasma gondii in wildlife and remarked on the critical role of anthropized areas where domestic cats and wildlife may come into contact, urging a systematic surveillance.
RESUMEN
Canine coronavirus (CCoV), an alphacoronavirus, may cause self-limiting enteric disease in dogs, especially in puppies. The noteworthy plasticity of coronaviruses (CoVs) occurs through mutation and recombination processes, which sometimes generate new dangerous variants. The ongoing SARS-CoV-2 pandemic and the isolation of a novel canine-feline recombinant alphacoronavirus from humans emphasizes the cross-species transmission ability of CoVs. In this context, exploring antiviral compounds is essential to find new tools for fighting against CoVs infections. Fungi produce secondary metabolites, which are often developed as antibiotics, fungicides, hormones, and plant growth regulators. Previous examinations of benzo-γ-pyrone 3-O-methylfunicone (OMF), obtained from Talaromyces pinophilus, showed that it reduces the infectivity of hepatitis C virus and bovine herpesvirus 1. Based on this evidence, this study evaluated the antiviral ability of OMF against CCoV infection in a canine fibrosarcoma (A72) cell line. During CCoV infection, a non-toxic dose of OMF markedly increased features of cell viability. Moreover, OMF induced a significant reduction in virus yield in the presence of an intense downregulation of the viral nucleocapsid protein (NP). These findings occurred in the presence of a marked reduction in the aryl hydrocarbon receptor (AhR) expression. Taken together, preliminary findings suggest that OMF inhibiting AhR shows promising activity against CCoV infection.
RESUMEN
One serious concern associated with the SARS-CoV-2 pandemic is that the virus might spill back from humans to wildlife, which would render some animal species reservoirs of the human virus. We assessed the potential circulation of SARS-CoV-2 caused by reverse infection from humans to bats, by performing bat surveillance from different sites in Central-Southern Italy. We restricted our survey to sampling techniques that are minimally invasive and can therefore be broadly applied by non-medical operators such as bat workers. We collected 240 droppings or saliva from 129 bats and tested them using specific and general primers for SARS-CoV-2 and coronaviruses, respectively. All samples (127 nasal swabs and 113 faecal droppings) were negative for SARS-CoV-2, and these results were confirmed by testing the samples with the Droplet Digital PCR. Additionally, pancoronavirus end-point RT-PCR was performed, and no sample showed specific bands. This outcome is a first step towards a better understanding of the reverse transmission of this virus to bats. Although the occurrence of a reverse zoonotic pattern can only be fully established by serological testing, the latter might represent an in-depth follow-up to a broad-scale preliminary assessment performed with our approach. We encourage the systematic surveillance of bats to help prevent reverse zoonotic episodes that would jeopardize human health, as well as biodiversity conservation and management.
RESUMEN
We developed two real-time detection assays, TaqMan real-time PCR and LAMP, using primers and probe designed based on a sequence annotated to code for a Haemagglutinin-related protein (Hg) of Xylella fastidiosa (Xf), a gene uniquely present in the Italian olive (De Donno of olive) and American mulberry strains, for specific detection of the target Xf strains. These assays were validated with DNA samples extracted from Xf-infected plant samples and from two species of insect vectors (Philaenus spumarius, Ps; and Neophilaenus campestris, Nc). Both techniques were proven to be highly sensitive (100 fg of Xf-genomic DNA) and specific to the Italian De Donno and American mulberry strains of Xf. When our LAMP was utilized in a duplex manner by combining with previously published universal primers and probe for detection of all Xf-subspecies and strains, the duplex LAMP showed high versatility in the simultaneous detection and differentiation of the Italian De Donno and American mulberry stains form other subspecies/strains. Furthermore, the Hg gene-specific LAMP primers and TaqMan probe were exploited to develop a new approach; henceforth referred to as the Fluorescence of TaqMan Probe upon Dequenching - Loop mediated Isothermal Amplification (FTP-LAMP). In the FTP-LAMP, the Xf-Hg specific fluorophore-quenched probe was added to a standard LAMP reaction and fluoresces only when bound to its target, allowing for a sequence-specific detection of the Xf-Italian De Donno and American mulberry strains in a LAMP context. Our FTP-LAMP assay showed to be highly sensitive detecting down to 100 fg genomic DNA of Xf, when tested on Xf-genomic DNA extracted from infected plants, DAS-ELISA-crude saps and insect vectors. Furthermore, the assay showed high specificity (98.7% vs 89% for LAMP) when applied on DNA templates from insect vectors. With the addition of an extra target sequence-specific probe acting as a direct Xf-specific dye, the FTP-LAMP has gained more specificity and reduced one of the main problems of the LAMP assay (false positives) when used for detecting of Xf in insect vectors. To the best of our knowledge, this study reports the development of the first LAMP assay and the first novel FTP-LAMP method for specific detection of the Italian De Donno and the American mulberry strains of Xf. Together with the Xf universal LAMP primers in a duplex approach, the FTP-LAMP could represent a useful tool not only for the specific detection of the olive-associated strain in Italy, but also to differentiate the De Donno strain from other strains of Xf already reported in Italy and Europe (Germany, France, Spain and Portugal).
