Impact of Human Adenovirus 36 on Embryonated Chicken Eggs: Insights into Growth Mechanisms.

Human adenovirus 36 (HAdV-D36) is presently the sole virus identified to be associated with an elevated risk of obesity in both humans and animals. However, its impact on embryonated chicken eggs (ECEs) remains unexplored. This study endeavoured to examine the influence of HAdV-D36 on embryonic development by utilizing embryonated chicken eggs as a dynamic model. To simulate various infection routes, the allantoic cavity and the yolk sac of ECEs were inoculated with HAdV-D36. Subsequently, embryos from both the experimental (inoculated with virus) and control (inoculated with PBS) groups were weighed and subjected to daily histological examination. The daily embryo weights were assessed and compared between groups using the Shapiro-Wilk test. Histopathological changes in tissues were examined and compared between the tested and control groups to ascertain physiological alterations induced by the virus. Our study confirmed a significant increase in the body weight of ECEs. However, this phenomenon was not attributable to adipose tissue development; rather, it was characterized by an augmented number of cells in all observed tissues compared to control subjects. We posit that HAdV-D36 may impact developing organisms through mechanisms other than enhanced adipose tissue development. Specifically, our findings indicate an increased number of cells in all tissues, a phenomenon that occurs through an as-yet-unexplored pathway.

Dual topology of equine arteritis virus GP3 protein and the role of arginine motif RXR in GP3 ER retention.

Glycoprotein 3 (GP3) serves as a structural protein in equine arteritis virus (EAV), forming a heterotrimeric complex that plays a pivotal role in virus tropism. In this study, we tested the membrane topology of GP3, both when expressed separately and during infection with recombinant tagged EAV GP3-HA. In our antibody accessibility experiment, we made a noteworthy discovery: GP3, when expressed separately, exhibits a dual topology. We introduced an additional N-glycosylation site, which was only partially used, providing further evidence for the dual topology of GP3. Intriguingly, this mutated GP3 was secreted into the medium, a result of the disruption of the ER retention motif RXR. The additional glycosylation site was not used when we examined the recombinant EAV virus with the same mutation. Despite the fact of higher expression levels of mutant GP3-HA, the protein was not secreted, and the recombinant mutant virus did not have growth delay compared to the EAV wild-type virus. This finding suggests that GP3 has a single type one membrane topology in virus infected cells, whereas the expression of GP3 in trans results in the dual topology of this protein. The RXR motif in the C-terminus is a co-factor of ER retention of the protein, but the main retention signal remains elusive.

Molecular detection of avian hepatitis E virus (Orthohepevirus B) in chickens, ducks, geese, and western capercaillies in Poland.

Orthohepevirus B, commonly known as avian hepatitis E virus (aHEV), causes big liver and spleen disease (BLS) or hepatitis-splenomegaly syndrome (HSS) in chickens. BLS is an emerging disease among chicken flocks in several countries around the world. In our previous studies, serology and molecular biology screening revealed that chicken flocks are widely affected by aHEV in Poland. The present study, which was conducted between 2019 and 2020, aimed to investigate the prevalence of aHEV in chicken flocks and other poultry, including ducks, geese, and turkeys. A total of 307 flocks were examined. In addition, 29 samples from captive wild birds (western capercaillies, Tetrao urogallus) were analyzed. In all the investigated poultry species, except turkeys, the nucleic acid sequence covering part of the ORF1 gene of the aHEV genome was detected (34/336 samples, 10.1%). The infection rate was found to be the highest in broiler breeder chicken flocks (14/40 samples; 35%). Phylogenetic analysis of partial ORF1 gene, which encodes helicase, revealed that the obtained sequences belonged to genotypes 2 and 4, while one belonged to genotype 3. Genotype 2 was detected for the first time in domestic geese and ducks, and genotype 4 was detected for the first time in Poland. The study demonstrated the presence of aHEV among the investigated western capercaillies, suggesting that this species is susceptible to aHEV infections and biosecurity is therefore required in western capercaillie breeding facilities.