noroviruses (noVs) are one of the major causative agents of non-bacterial gastroenteritis in humans worldwide. NoVs, belonging to Caliciviridae, are classified into ten genogroups (G) and eight P-groups based on major capsid protein (VP1) and of the RNA-dependent-RNA-polymerase (RdRp), respectively. In swine, the main genogroup and P-group identified are GII and GII.P; which can infect humans too. To date, only one case of GIIP.11 have been identified in swine in Italy while the circulation of other P-types is currently unknown. In the present study, 225 swine faecal samples were collected from 74 swine herds in Veneto region through on-farm monitoring. noV circulation was particularly high in older pigs. The phylogenetic analysis showed the co-circulation of NoVs belonging to two different P-types: GII.P11 and GII.P18, here described for the first time in Italy, presenting an extensive genetic diversity, never described before worldwide. Distinct noV genetic subgroups and unique amino acid mutations were identified for each P-type for the first time. This study demonstrated the co-circulation of diverse swine NoVs subgroups in Italy, raising questions on the origin of such diversity and suggesting that continuous monitoring of swine noVs is needed to track the emergence of potentially zoonotic viruses by recombination events. Food-and water-borne infections, which are mainly manifested with gastroenteritis in humans, represent a significant public health burden. Among food-borne viruses, Noroviruses (NoVs) are a leading pathogen, causing epidemic gastroenteritis cases worldwide 1. Low infectious dose, environmental resistance, strain diversity, and the shedding from asymptomatic persons, render human NoVs highly contagious pathogens. NoVs are transmitted through ingestion of contaminated food or water, either via the faecal-oral route or via airborne particles and contact with contaminated surfaces. NoV belongs to the Caliciviridae family, which includes small non-enveloped viruses of approximately 35 nm in diameter with single stranded positive RNA genome of 7.4-8.3 kb 2. Five genera: Vesivirus, Lagovirus, Sapovirus, Nebovirus and Norovirus as well as unassigned viruses are included in this family 3. Norovirus and Sapovirus genera contain human and animal enteric viruses. The NoV genome possesses 3 Open Reading frames (ORFs) encoding: a polyprotein (ORF1) that by protease processing produces six non-structural proteins, including a RNA-dependent-RNA-polymerase (RdRp), a major capsid protein, VP1 (ORF2), and a minor one, VP2 (ORF3). NoVs are classified into ten genogroups (G) based on the variation of the major capsid protein (VP1), and are further divided into 49 genotypes 3. Due to the recombination events that occur between ORF1 and ORF2, a dual nomenclature based on VP1 and RdRp was recently proposed 3. Based on the RdRp sequence, NoVs are classified into eight P (polymerase)-groups and further divided into 60 P-types. Human NoV infections are caused by GI, GII, and GIV genotypes, with a higher frequency of ...
