Layer chickens were immunized with three species of inactivated orthopox virus (vaccinia virus, calpox virus and cowpox virus). Antibodies (IgY) were purified from egg yolks by improved polyethylene glycol precipi...Layer chickens were immunized with three species of inactivated orthopox virus (vaccinia virus, calpox virus and cowpox virus). Antibodies (IgY) were purified from egg yolks by improved polyethylene glycol precipitation. The development of IgY directed against orthopox virus antigens was followed by immunofluorescence assay, plaque reduction neutraliztion test and immunoelectron microscopy. Cross-reactivity of two IgY antibodies with cells infected by the different strains of the pox viruses was also investigated by different methods (immunofluorescence assay, plaque reduction neutraliztion test and Western blot). Even in very high dilutions in immunofluorescence assay (titres up to 1:10^6 and 1:10^5, respectively) and persisted on a plateau over 10 months after four booster injections, it was showed that anti-vaccinia virus IgY and anti-calpox virus IgY were positive. Neutralizing activity and ultra-structural detection of antigen with gold-labelled antibodies were respectively observed in plaque reduction neutralization test and immunoelectron microscopy. Western blot analysis revealed specific binding of IgY to virus proteins. Thus, there was cross-reactivity between different orthopox viruses. Finally, orthopox virns-specific IgY antibodies bounded magnetic beads (Dynabead) were used to concentration of orthopox viruses. This study suggests that anti-pox virus IgY could serve as a useful tool for orthopox viruses diagnosis.展开更多
In recent years, the use of in-feed antibiotics for growth and disease prevention in livestock production has been under severe scrutiny. The use and misuse of in-feed antibiotics has led to problems with drug residue...In recent years, the use of in-feed antibiotics for growth and disease prevention in livestock production has been under severe scrutiny. The use and misuse of in-feed antibiotics has led to problems with drug residues in animal products and increased bacterial resistance. Chicken egg yolk antibodies (IgY) have attracted considerable attention as an alternative to antibiotics to maintain swine health and performance. Oral administration of IgY possesses many advantages over mammalian IgG such as cost-effectiveness, convenience and high yield. This review presents an overview of the potential to use IgY immunotherapy for the prevention and treatment of swine diarrhea diseases and speculates on the future of IgY technology. Included are a review of the potential applications of IgY in the control of enteric infections of either bacterial or viral origin such as enterotoxigenic Escherichia coil, Salmonella spp., rotavirus, porcine transmissible gastroenteritis virus, and porcine epidemic diarrhea virus. Some potential obstacles to the adoption of IgY technology are also discussed.展开更多
Newcastle disease virus (NDV) is not considered as cause of serious disease in humans. But, recent data make it clear that, under particular circumstances, it is indeed possible for NDV to cause severe human respirato...Newcastle disease virus (NDV) is not considered as cause of serious disease in humans. But, recent data make it clear that, under particular circumstances, it is indeed possible for NDV to cause severe human respiratory disease. Newcastle Disease infection has been reported in many bird species. Cormorants that inhabit at the Qinghai-Tibet Plateau are mainly represented by Great Cormorant (Phalacrocorax carbo sinensis), which is distributed mainly on the Qinghai Lake area. Cormorants are considered as one of the main NDV-reservoir. We conducted the study for the presence of antibodies to Newcastle disease virus by hemagglutination inhibition test in yolks. We got 50% of seropositive yolks to Newcastle disease virus. These results show that NDV circulates in the Qinghai Lake population of cormorants. We first used the technique of detection of antibodies to Newcastle disease virus in the egg yolk for study the circulation of the virus in cormorants and demonstrated its effectiveness. We should carefully monitor cases of pneumonia in the population of people living around the lake and assess the causes of the disease.展开更多
The term“IgY technology”was introduced in the literature in the mid 1990s to describe a procedure involving immunization of avian species,mainly laying hens and consequent isolation of the polyclonal IgYs from the“...The term“IgY technology”was introduced in the literature in the mid 1990s to describe a procedure involving immunization of avian species,mainly laying hens and consequent isolation of the polyclonal IgYs from the“immune”egg yolk(thus avoiding bleeding and animal stress).IgYs have been applied to various fields of medicine and biotechnology.The present article will deal with specific aspects of IgY technology,focusing on the currently reported methods for developing,isolating,evaluating and storing polyclonal IgYs.Other topics such as current information on isolation protocols or evaluation of IgYs from different avian species are also discussed.Specific advantages of IgY technology(e.g.,novel antibody specificities that may emerge via the avian immune system)will also be discussed.Recent in vitro applications of polyclonal egg yolk-derived IgYs to the field of disease diagnosis in human and veterinary medicine through in vitro immunodetection of target biomolecules will be presented.Moreover,ethical aspects associated with animal well-being as well as new promising approaches that are relevant to the original IgY technology(e.g.,development of monoclonal IgYs and IgY-like antibodies through the phage display technique or in transgenic chickens)and future prospects in the area will also be mentioned.展开更多
文摘Layer chickens were immunized with three species of inactivated orthopox virus (vaccinia virus, calpox virus and cowpox virus). Antibodies (IgY) were purified from egg yolks by improved polyethylene glycol precipitation. The development of IgY directed against orthopox virus antigens was followed by immunofluorescence assay, plaque reduction neutraliztion test and immunoelectron microscopy. Cross-reactivity of two IgY antibodies with cells infected by the different strains of the pox viruses was also investigated by different methods (immunofluorescence assay, plaque reduction neutraliztion test and Western blot). Even in very high dilutions in immunofluorescence assay (titres up to 1:10^6 and 1:10^5, respectively) and persisted on a plateau over 10 months after four booster injections, it was showed that anti-vaccinia virus IgY and anti-calpox virus IgY were positive. Neutralizing activity and ultra-structural detection of antigen with gold-labelled antibodies were respectively observed in plaque reduction neutralization test and immunoelectron microscopy. Western blot analysis revealed specific binding of IgY to virus proteins. Thus, there was cross-reactivity between different orthopox viruses. Finally, orthopox virns-specific IgY antibodies bounded magnetic beads (Dynabead) were used to concentration of orthopox viruses. This study suggests that anti-pox virus IgY could serve as a useful tool for orthopox viruses diagnosis.
基金supported by funds from the National Natural Science Foundation of China(310010533037105330871806)
文摘In recent years, the use of in-feed antibiotics for growth and disease prevention in livestock production has been under severe scrutiny. The use and misuse of in-feed antibiotics has led to problems with drug residues in animal products and increased bacterial resistance. Chicken egg yolk antibodies (IgY) have attracted considerable attention as an alternative to antibiotics to maintain swine health and performance. Oral administration of IgY possesses many advantages over mammalian IgG such as cost-effectiveness, convenience and high yield. This review presents an overview of the potential to use IgY immunotherapy for the prevention and treatment of swine diarrhea diseases and speculates on the future of IgY technology. Included are a review of the potential applications of IgY in the control of enteric infections of either bacterial or viral origin such as enterotoxigenic Escherichia coil, Salmonella spp., rotavirus, porcine transmissible gastroenteritis virus, and porcine epidemic diarrhea virus. Some potential obstacles to the adoption of IgY technology are also discussed.
文摘Newcastle disease virus (NDV) is not considered as cause of serious disease in humans. But, recent data make it clear that, under particular circumstances, it is indeed possible for NDV to cause severe human respiratory disease. Newcastle Disease infection has been reported in many bird species. Cormorants that inhabit at the Qinghai-Tibet Plateau are mainly represented by Great Cormorant (Phalacrocorax carbo sinensis), which is distributed mainly on the Qinghai Lake area. Cormorants are considered as one of the main NDV-reservoir. We conducted the study for the presence of antibodies to Newcastle disease virus by hemagglutination inhibition test in yolks. We got 50% of seropositive yolks to Newcastle disease virus. These results show that NDV circulates in the Qinghai Lake population of cormorants. We first used the technique of detection of antibodies to Newcastle disease virus in the egg yolk for study the circulation of the virus in cormorants and demonstrated its effectiveness. We should carefully monitor cases of pneumonia in the population of people living around the lake and assess the causes of the disease.
文摘The term“IgY technology”was introduced in the literature in the mid 1990s to describe a procedure involving immunization of avian species,mainly laying hens and consequent isolation of the polyclonal IgYs from the“immune”egg yolk(thus avoiding bleeding and animal stress).IgYs have been applied to various fields of medicine and biotechnology.The present article will deal with specific aspects of IgY technology,focusing on the currently reported methods for developing,isolating,evaluating and storing polyclonal IgYs.Other topics such as current information on isolation protocols or evaluation of IgYs from different avian species are also discussed.Specific advantages of IgY technology(e.g.,novel antibody specificities that may emerge via the avian immune system)will also be discussed.Recent in vitro applications of polyclonal egg yolk-derived IgYs to the field of disease diagnosis in human and veterinary medicine through in vitro immunodetection of target biomolecules will be presented.Moreover,ethical aspects associated with animal well-being as well as new promising approaches that are relevant to the original IgY technology(e.g.,development of monoclonal IgYs and IgY-like antibodies through the phage display technique or in transgenic chickens)and future prospects in the area will also be mentioned.