West Nile Virus lineage 1 in Italy: newly introduced or a re-occurrence of a previously circulating strain?

In Italy, West Nile virus (WNV) appeared for the first time in the Tuscany region in 1998. After 10 years of absence, it re-appeared in the areas surrounding the Po River delta, affecting eight provinces in three regions. Thereafter, WNV epidemics caused by genetically divergent isolates have been documented every year in the country. Since 2018, only WNV Lineage 2 has been reported in the Italian territory. In October 2020, WNV Lineage 1 (WNV-L1) re-emerged in Italy, in the Campania region. This is the first occurrence of WNV-L1 detection in the Italian territory since 2017. WNV was detected in the internal organs of a goshawk (Accipiter gentilis) and a kestrel (Falco tinnunculus). The RNA extracted in the goshawk tissue samples was sequenced, and a Bayesian phylogenetic analysis was performed by a maximum-likelihood tree. Genome analysis, conducted on the goshawk WNV complete genome sequence, indicates that the strain belongs to the WNV-L1 Western-Mediterranean (WMed) cluster. Moreover, a close phylogenetic similarity is observed between the goshawk strain, the 2008–2011 group of Italian sequences, and European strains belonging to the Wmed cluster. Our results evidence the possibility of both a new re-introduction or unnoticed silent circulation in Italy, and the strong importance of keeping the WNV surveillance system in the Italian territory activ

Sviluppo e valutazione di test diagnostici per la sierodiagnosi di brucellosi suina

Sono stati sviluppati una ELISA competitiva (c-ELISA), una ELISA indiretta (i-ELISA) e un test immunologico DELFIA (Dissociation-Enhanced Lanthanide Fluorescence Immunoassay) per la ricerca di anticorpi verso Brucella suis in sieri di maiale e cinghiale. I tre test prevedono l’utilizzo di un anticorpo monoclonale (MAb 4B5A) verso l’LPS di Brucella (c-ELISA e DELFIA) e di un anticorpo monoclonale (MAb 10C2G5) verso le IgG suine (i-ELISA). La specificità (Sp) e la sensibilità (Se) dei tre test sono le seguenti: per la c-ELISA Se e Sp = 100% con un valore di cut-off pari al 61.0% (B/B0%); per la i-ELISA Sp = 99.1% e Se = 100% con un valore di cut-off di 21.7% (PP%); per il DELFIA Sp = 91.0% e Se = 75% ponendo il valore di cut-off al 37.0% (B/B0%). Inoltre sono state valutate le performance, nei confronti di sieri suini, di un test FPA (Fluorescence Polarization Assay) commerciale sviluppato per la ricerca di anticorpi anti-Brucella in sieri bovini; la specificità e la sensibilità ottenute sono entrambe del 100% al valore di cut-off di 99.5 (mP). Questi risultati suggeriscono che la combinazione di c-ELISA, i-ELISA e FPA può essere utilizzata per migliorare la diagnosi di brucellosi suina

Sviluppo e validazione di un antigene-capture ELISA basato su anticorpi monoclonali specifici per Listeria monocytogenes negli alimenti

È stato standardizzato e validato un dosaggio immunoenzimatico capture ELISA per l’identificazione di Listeria monocytogenes negli alimenti. Il dosaggio è stato messo a punto analizzando campioni di prodotti carnei, ittici e lattiero-caseari, pasta di semola e di farina di grano. Il metodo è risultato specifico al 100% per Listeria spp., con limite di rivelazione di 6,6 × 10(3) cfu/ml. Il metodo L. monocytogenes capture ELISA è stato confrontato con il metodo ufficiale ISO 11290-1:1996 per l’isolamento e l’identificazione di L. monocytogenes in matrici alimentari ottenendo un indice di concordanza significativo. Il dosaggio è stato validato in base alle indicazioni della norma ISO 16140:2003 relativamente ai metodi di analisi qualitativi. Il dosaggio è risultato accurato, specifico, sensibile, selettivo, riproducibile e rapido da eseguire, consentendo nello screening degli alimenti la riduzione di tempi e costi dell’indagine microbiologica

Development and validation of an antigen capture ELISA based on monoclonal antibodies specific for Listeria monocytogenes in food

A capture enzyme-linked immunosorbent assay (ELISA) for the identification of Listeria monocytogenes in food was standardised and validated. The assay was refined by analysing samples of meat, seafood, dairy products, pasta and flour. The method was found to be 100% specific for Listeria spp. tested, with a limit of sensitivity of 6.6 × 10(3) colony-forming units (cfu)/ml. Comparison of L. monocytogenes capture ELISA against the official International Organization for Standardization (ISO) method 11290-1:1996 for the isolation and identification of L. monocytogenes in food matrices produced a significant concordance index. The assay was validated on food matrices including meat, seafood and dairy products in line with ISO 16140:2003 concerning qualitative analytical methods. The assay was found to be accurate, specific, sensitive, selective, reproducible and fast, resulting in lower costs and faster turnaround in microbiological screening of foods

Development and evaluation of diagnostic tests for the serological diagnosis of brucellosis in swine

A competitive enzyme-linked immunosorbent assay (c-ELISA), an indirect ELISA (i-ELISA) and a dissociation-enhanced lanthanide fluorescence immunoassay (DELFIA) were developed to test for antibodies to Brucella suis in pig and wild boar sera. An anti-Brucella-LPS monoclonal antibody (MAb 4B5A) (c-ELISA and DELFIA) and an anti-swine IgG monoclonal antibody (MAb 10C2G5) (i-ELISA) were used for the three assays. The specificity (Sp) and sensitivity (Se) of the assays gave the following results: Se and Sp = 100% at a cut-off value of 61.0% (B/B0%) for c-ELISA; Sp = 99.1% and Se = 100% at a cut-off value of 21.7% (percentage positivity: PP%) for i-ELISA; Sp = 91.0% and Se = 75% at a cut-off value of 37.0% (B/B0%) for DELFIA. In addition, the performance of a commercial fluorescence polarisation assay (FPA), standardised for bovine sera, was evaluated in swine sera. The specificity and sensitivity obtained were both 100% at a cut-off value of 99.5 (millipolarisation unit values). These results suggest that the combination of c-ELISA, i-ELISA and FPA can be used to improve the serological diagnosis of swine brucellosis

Development of a rapid method for the detection of Yersinia enterocolitica serotype O:8 from food

In this study, a new and alternative method based on monoclonal antibodies (MAbs) for the rapid detection of Yersinia enterocolitica O:8 was developed. This microorganism is an emerging foodborne pathogen causing gastrointestinal disease in humans. The transmission can occur through contaminated food such as raw or undercooked meat, milk and dairy products, water and fresh vegetables. Nine MAbs (46F7, 54B11, 54C11, 62D10, 64C7, 64C10, 72E8, 72E10, 72G6) were characterized and selected versus Y. enterocolitica O:8, and only 2 of them showed also a weak cross-reaction with Campylobacter jejuni. The MAb 54B11 was used for the development of Y. enterocolitica capture-ELISA in food matrices, i.e. meat and dairy products (n ¼ 132). The method was validated by ISO 16140:2003 and compared with the official method for the detection of presumptive pathogenic Y. enterocolitica (ISO 10273:2003). Relative accuracy, sensitivity and specificity corresponded to 100%. The selectivity was evaluated on other food samples (n ¼ 126) showing a lower confidence limit of 90.3% and an upper confidence limit of 100%. The results from this study demonstrated that the developed method was rapid and cheap, specific and sensitive for the screening of the pathogen in food

Development of a Capture ELISA for Rapid Detection of Salmonella enterica in Food Samples

In this study, an immunology-based assay that employed specificmonoclonal antibodies binding with somatic or flagella antigens of Salmonella enterica subsp. enterica was performed. As this pathogen is one of themost important bacterial species responsible for foodborne outbreaks, its detection in food by rapid and easy methods is properly suitable. After a first screening by indirect ELISA, three monoclonal antibodies (1B6D9, 1B6C11, 1D12F11) versus S. enterica subsp. enterica serovar TyphimuriumATCC 14028 (whole antigen) and another one (4E6F11) versus S. enterica flagellin were further characterized by immunoblotting and mass spectrometry analysis. Then, a total of 84 food samples (dairy products, meat, pasta and flour, eggs, and animal feed) were analyzed by both the officialmethod ISO6579:2002 and S. enterica capture ELISA. For the standardization of the lastmethod, the specific monoclonal antibody 4E6F11 was selected. The developed Salmonella capture ELISA showed a significant agreement with the official method (ISO 6579:2002). Relative sensitivity, specificity, and accuracy were 100%, 81.0%, and 90.5%, respectively. Therefore, this assay could represent a valid alternative to conventional methods able to detect this pathogen in foo

Transplacental transmission of the Italian Bluetongue virus serotype 2 in sheep

In order to study the capability of a Bluetongue virus serotype 2 (BTV‑2) field isolate to cross the placental barrier, 2 groups of 5 pregnant ewes were infected with a field BTV‑2 Italian strain (Group A) or with the same strain passaged once in Culicoides cells (Kc) (Group B). Following infection, EDTA‑blood and serum samples were collected weekly and tested for the presence of BTV RNA/infectious virus and anti‑BTV‑2 antibodies, respectively. At lambing, precolostral EDTA‑blood and serum samples were collected from lambs and tested as before. The lambs were then sampled as scheduled for the dams. All sheep seroconverted on day 12 post‑infection (pi) and remained seropositive throughout the sampling period (day 68 pi). BTV was isolated from day 7 pi to day 14 pi in animals of Group A and from day 5 pi to day 12 pi in animals of Group B. None of the 14 lambs born had pre‑colostral antibodies. Three lambs born from two ewes of Group B were viraemic at birth and in one lamb infectious virus was isolated from blood up to 11 days of age. This study proved for the first time that a single passage of BTV‑2 field strain in Kc cells is able to give to BTV the ability to cross the placenta barrier and infect foetal tissues

Intravenous Infection of Small Ruminants Suggests a Goat-Restricted Host Tropism and Weak Humoral Immune Response for an Atypical Bluetongue Virus Isolate

Bluetongue virus (BTV) is the etiologic agent of bluetongue (BT), a viral WOAH-listed disease affecting wild and domestic ruminants, primarily sheep. The outermost capsid protein VP2, encoded by S2, is the virion’s most variable protein, and the ability of reference sera to neutralize an isolate has so far dictated the differentiation of 24 classical BTV serotypes. Since 2008, additional novel BTV serotypes, often referred to as “atypical” BTVs, have been documented and, currently, the full list includes 36 putative serotypes. In March 2015, a novel atypical BTV strain was detected in the blood of asymptomatic goats in Sardinia (Italy) and named BTV-X ITL2015. The strain re-emerged in the same region in 2021 (BTV-X ITL2021). In this study, we investigated the pathogenicity and kinetics of infection of BTV-X ITL2021 following subcutaneous and intravenous infection of small ruminants. We demonstrated that, in our experimental settings, BTV-X ITL2021 induced a long-lasting viraemia only when administered by the intravenous route in goats, though the animals remained healthy and, apparently, did not develop a neutralizing immune response. Sheep were shown to be refractory to the infection by either route. Our findings suggest a restricted host tropism of BTV-X and point out goats as reservoirs for this virus in the field

Short communication. Further evidence of lineage 2 West Nile Virus in Culex pipiens of North-Eastern Italy

West Nile Virus lineage 1 (WNV lin1) emerged in North-Eastern Italy in 2008 and, since then, it has been detected in animals, humans and mosquitoes. Three years later, in the same area, a lineage 2 (lin2) strain of WNV was found in birds and vectors. On August the 21st, during the 2012 WNV entomological surveillance plan, a WNV lin2 strain was detected by RT-PCR in a pool of Culex pipiens mosquitoes captured in Veneto region. According to the alignment of the partial sequences of the NS5 and NS3 genes, no differences between this Italian lineage 2 strain and the Nea Santa-Greece-2010 WNV isolate (Gr-10) were observed. Similarly to the Gr-10 strain, the putative NS3 aminoacid sequences of the Italian strain showed proline in position 249 instead of histidine (H249P). Although proline in position 249 has been suggested to increase the virulence of WNV strains, neither human nor veterinary cases associated to this strain have been reported in the region. A prompt mosquito disinfestation was organized to avoid the spread of this potential threatening virus. The simultaneous circulation of both WNV lineage 1 and 2 confirms North-Eastern Italy as a high risk area for WNV emergence and highlights the need for a continuous surveillance