Cocirculation of Newcastle Disease Virus Genotypes XII and VII Along with Nonvirulent Forms Characterized in Domestic Birds from Peru.

Newcastle disease virus (NDV) is one of the most important pathogens affecting poultry, given its impact on health and production systems worldwide, despite widespread vaccination. Over the past 20 years, NDV has caused severe outbreaks of disease in Peru. These outbreaks primarily affected gamecocks and broiler chickens, with an additional reported case in commercial layers. Therefore, our objective was to identify and characterize the virus responsible for these cases in Peru. We analyzed 14 suspected clinical cases in domestic birds for NDV detection, isolation, and genetic characterization. Among these cases, seven involved gamecocks, with six genotype XII isolates and one genotype VII isolate, representing the first report of NDV genotype VII isolate from fighting roosters in Peru. Additionally, among the six cases in broiler chickens, we detected four genotype XII isolates and three genotype II isolates, including one sample containing both genotypes XII and II. Furthermore, a genotype I viral isolate was identified in a laying hen. Hence, we concluded that two divergent, highly virulent NDV genotypes, genotypes XII and VII, along with avirulent forms such as genotypes I and II are circulating among domestic birds in Peru. Genetic analysis indicates that these viruses are evolving locally within avian species and offers the basis necessary for vaccine adaptation to circulating viruses. Our results highlight the cocirculation of multiple virulent and nonvirulent NDV genotypes in domestic birds in Peru, underscoring the potential role of gamecocks as a viral source of virulent NDV strains in the country and the occurrence of outbreaks in poultry farms.

Cocirculación de los genotipos XII y VII del virus de la enfermedad de Newcastle junto con formas no virulentas caracterizadas en aves domésticas del Perú. El virus de la enfermedad de Newcastle (NDV) es uno de los patógenos más importantes que afectan a la avicultura, dado su impacto en la salud y los sistemas de producción en todo el mundo, a pesar de la vacunación generalizada. Durante los últimos 20 años, el virus de la enfermedad de Newcastle ha causado graves brotes de enfermedades en el Perú. Estos brotes afectaron principalmente a gallos de pelea y pollos de engorde, con un caso adicional reportado en aves de postura comerciales. Por lo tanto, nuestro objetivo fue identificar y caracterizar el virus responsable de estos casos en el Perú. Se analizaron 14 casos cl'inicos sospechosos en aves domésticas para la detección, aislamiento y caracterización genética del virus de Newcastle. Entre estos casos, siete involucraron gallos de pelea, con seis aislamientos del genotipo XII y un aislado del genotipo VII, lo que representa el primer informe de aislamiento del genotipo VII del virus de Newcastle de gallos de pelea en Perú. Además, entre los seis casos en pollos de engorde, se detectaron cuatro aislados del genotipo XII y tres aislados del genotipo II, incluida una muestra que con-ten'ia ambos genotipos XII y II. Además, se identificó un aislado viral de genotipo I en una gallina de postura. Por lo tanto, se concluye que dos genotipos divergentes y altamente virulentos del virus de Newcastle, los genotipos XII y VII, junto con formas avirulentas como los genotipos I y II, están circulando entre las aves domésticas en el Perú. El análisis genético indica que estos virus están evolucionando localmente dentro de las especies aviares y ofrece las bases necesarias para realizar adaptaciones de las vacunas contra los virus circulantes. Nuestros resultados resaltan la cocirculación de múltiples genotipos del virus de Newcastle virulentos y no virulentos en aves domésticas en Perú, subrayando el papel potencial de los gallos de pelea como fuente viral de cepas virulentas del virus de Newcastle en el pa'is y la aparición de brotes en granjas av'icolas.

Highly pathogenic avian influenza virus H5N1 clade 2.3.4.4b from Peru forms a monophyletic group with Chilean isolates in South America.

Highly pathogenic avian Influenza virus (HPAIV) has spread in an unprecedented extent globally in recent years. Despite the large reports of cases in Asia, Europe, and North America, little is known about its circulation in South America. Here, we describe the isolation, and whole genome characterization of HPAIV obtained from sampling 26 wild bird species in Peru, representing one of the largest studies in our region following the latest HPAIV introduction in South America. Out of 147 samples analyzed, 22 were positive for detection of avian influenza virus using a qRT-PCR-based assay. Following inoculation into embryonated chicken eggs, fourteen viral isolates were obtained from which nine isolates were selected for genome characterization, based on their host relevance. Our results identified the presence of HPAIV H5N1 subtype in a highly diverse wild bird species. Phylogenetic analysis revealed that these isolates correspond to the clade 2.3.4.4b, sharing a common ancestor with North American isolates and forming a monophyletic group along with isolates from Chile. Altogether, changes at the amino acid levels compared to their closest relatives indicates the virus is evolving locally, highlighting the need for constant genomic surveillance. This data evidence the chances for spillover events increases as the virus spreads into large populations of immunologically naïve avian species and adding conditions for cross species transmission.

Genetic subtyping and phylogenetic analysis of HA and NA from avian influenza virus in wild birds from Peru reveals unique features among circulating strains in America.

Avian influenza virus (AIV) represents a major concern with productive implications in poultry systems but it is also a zoonotic agent that possesses an intrinsic pandemic risk. AIV is an enveloped, negative-sense and single-stranded RNA virus with a segmented genome. The eight genomic segments, comprising the whole genome, encode for eleven proteins. Within these proteins, Hemagglutinin (HA) and Neuraminidase (NA) are the most relevant for studies of evolution and pathogenesis considering their role in viral replication, and have also been used for classification purposes. Migratory birds are the main hosts and play a pivotal role in viral evolution and dissemination due to their migratory routes that comprise large regions worldwide. Altogether, viral and reservoir factors contribute to the emergence of avian influenza viruses with novel features and pathogenic potentials. The study aimed to conduct surveillance of AIVs in wild birds from Peru. A multi-site screening of feces of migratory birds was performed to isolate viruses and to characterize the whole genome sequences, especially the genes coding for HA and NA proteins. Four-hundred-twenty-one (421) fecal samples, collected between March 2019 and March 2020 in Lima, were obtained from 21 species of wild birds. From these, we isolated five AIV from whimbrel, kelp gull, Franklin's gulls and Mallard, which were of low pathogenicity, including four subtypes as H6N8, H13N6, H6N2 and H2N6. Genetic analysis of HA and NA genes revealed novel features in these viruses and phylogenetic analysis exhibited a close relationship with those identified in North America (US and Canada). Furthermore, H2N6 isolate presented a NA sequence with higher genetic relationship to Chilean isolates. These results highlight that the geographical factor is of major relevance in the evolution of AIV, suggesting that AIV circulating in Peru might represent a new site for the emergence of reassortant AIVs.

Evidencia serológica de anticuerpos contra el virus de la laringotraqueitis infecciosa aviar en gallinas reproductoras de carne y postura / Serological evidence of antibodies against laryngotracheitis virus in broilers and layer breeders

Un total de 360 muestras de sueros de reproductoras de carne y postura procedentes de 18 lotes de aves, en etapa de producción, fueron examinadas con el fin de detectar la presencia de anticuerpos contra el virus de la laringotraqueitis infecciosa aviar (VLT) mediante una prueba de ELISA indirecta. Las granjas de aves estaban localizadas en la región de Lima y en la costa norte del Perú. Los sueros se colectaron entre julio de 2004 y septiembre de 2005 y fueron analizados en conjunto. Ocho de 360 sueros fueron positivos a anticuerpos contra el VLT. Teniendo en cuenta que las muestras positivas procedían de seis lotes de reproductoras y la baja positividad en estos lotes, se concluye que los 18 lotes de reproductoras analizados no mostraron evidencia serológica de exposición al VLT.

A total of 360 serum samples from eighteen flocks of broiler and layer breeders in phase of production were used in order to detect the presence of Laryngotracheitis virus (VLT) antibodies using a commercial ELISA test. The poultry farms were located in the region of Lima and in the northern coast of Peru. Samples were collected from July 2004 till September 2005 and were processed as a group. Eight samples out of 360 in 6 flocks were positive to antibodies against VLT. Due to the small number of positives and the low level of antibodies was concluded than the 18 breeder flocks did not show serological evidence of exposition to VLT.

Evidencia serológica de anticuerpos contra el virus de la reticuloendoteliosis en gallinas reproductoras de Lima / Serologic evidence of antibodies against reticuloendotheliosis virus in breeder hens Lima

A total of 180 serum samples collected in the period of April to September, 2004 from 12 broiler breeder flocks and commercial layers older than 50 weeks of age from ten poultry farms were tested for the presence of Reticuloendotheliosis virus (REV) antibodies using a commercial ELISA test. Only 3 samples were positive to antibodies against REV; however, the optical densities of the 3 positive samples were higher than the negative controls but below to the positive controls. ELISA serologic testing is not definitive and, therefore, it can be concluded that the 12 flocks were negative to REV antibodies. On the other hand, further studies, such as isolation and identification of the virus, are required to achieve a definitive diagnosis.