Pathogenicity evaluation of neuraminidase-negative H5 and H7 viruses in day-old chicks and adult chicken

Cross-species infection potential of avian influenza H13 viruses isolated from wild aquatic birds to poultry and mammals

Wild aquatic birds are the primary hosts of H13 avian influenza viruses (AIVs). Herein, we performed a genetic analysis of two H13 AIVs isolated from wild birds in China and evaluated their infection potential in poultry to further explore the potential for transmission from wild aquatic birds to poultry. Our results showed that the two strains belong to different groups, one strain (A/mallard/Dalian/DZ-137/2013; abbreviated as DZ137) belongs to Group I, whereas the other strain (A/Eurasian Curlew/Liaoning/ZH-385/2014; abbreviated as ZH385) belongs to Group III. In vitro experiments showed that both DZ137 and ZH385 can replicate efficiently in chicken embryo fibroblast cells. We found that these H13 AIVs can also efficiently replicate in mammalian cell lines, including human embryonic kidney cells and Madin-Darby canine kidney cells. In vivo experiments showed that DZ137 and ZH385 can infect 1-day-old specific pathogen-free (SPF) chickens, and that ZH385 has a higher replication ability in chickens than DZ137. Notably, only ZH385 can replicate efficiently in 10-day-old SPF chickens. However, neither DZ137 nor ZH385 can replicate well in turkeys and quails. Both DZ137 and ZH385 can replicate in 3-week-old mice. Serological surveillance of poultry showed a 4.6%-10.4% (15/328-34/328) antibody-positive rate against H13 AIVs in farm chickens. Our findings indicate that H13 AIVs have the replication ability in chickens and mice and may have a risk of crossing the host barrier from wild aquatic birds to poultry or mammals in the future.

Establishment of Adequate Functional Cellular Immune Response in Chicks Is Age Dependent

The development of immunocompetence in chicks after hatching is not fully understood. However, detailed knowledge of immunocompetence and maturation processes in day-old chicks (DOCs) and juvenile chickens (Gallus gallus domesticus) is necessary to implement enhanced immunization strategies. For viral diseases, this especially includes the development of cellular immunity focusing on T-cell-dependent responses. In the current study, we investigated T-cell subsets in blood and lymphoid tissues of 1-to-21-day-old chickens concerning their cellular composition and localization. We detected an increase of T-cell frequencies in blood and spleen and a shift of the CD8α dimer expression toward a CD8αβ expression on the surface of T cells with increasing age. A relocalization of lymphocytes into antigen presentation structures within the spleen was affirmed. In addition, changes in basal messenger RNA (mRNA) level, with increasing IL2 and IFNγ mRNA levels at different ages were measured. These detected changes suggest an improved T-cell-dependent antiviral response with increasing age in chickens. To confirm this finding on a functional level, we conducted a transfer experiment: adult and, as a negative control, neonatal naïve lymphocytes were transferred into DOCs. Afterward, the protection induced by these transferred cells was verified by a sublethal infection by using a highly pathogenic avian influenza virus with neuraminidase deletion, H5N_del. Previous experiments have shown that adult animals survive infection with this virus strain, while naïve DOCs show severe symptoms or even die. As a result, the transfer of adult, but not neonatal lymphocytes, confers protection to DOCs against the infection, demonstrating functional differences in lymphocytes from chicks of different ages. Collectively, these data reveal the inability of chicks to mount an effective, cellular antiviral response in the first 3 wk of life. Therefore, we propose that the observed maturation of both the innate and the adaptive arms of the immune system early in development is mandatory for controlling influenza infection in chickens, as well as for an effective vaccination with replication-competent viral vaccine strains.

A review of H5Nx avian influenza viruses

Highly pathogenic avian influenza viruses (HPAIVs), originating from the A/goose/Guangdong/1/1996 H5 subtype, naturally circulate in wild-bird populations, particularly waterfowl, and often spill over to infect domestic poultry. Occasionally, humans are infected with HPAVI H5N1 resulting in high mortality, but no sustained human-to-human transmission. In this review, the replication cycle, pathogenicity, evolution, spread, and transmission of HPAIVs of H5Nx subtypes, along with the host immune responses to Highly Pathogenic Avian Influenza Virus (HPAIV) infection and potential vaccination, are discussed. In addition, the potential mechanisms for Highly Pathogenic Avian Influenza Virus (HPAIV) H5 Reassorted Viruses H5N1, H5N2, H5N6, H5N8 (H5Nx) viruses to transmit, infect, and adapt to the human host are reviewed.