The present invention is directed to novel promiscuous and artificial T helper cell epitopes (Th epitopes) designed to provide optimum immunogenicity of a target antigenic site. The target antigenic site can include a B cell epitope, a CTL epitope, a peptide hapten, a non-peptide hapten, or any immunologically reactive analogue thereof. The disclosed Th epitopes, when covalently linked to a target antigenic site in a peptide immunogen construct, elicit a strong B cell antibody response or an effector T cell response to the target antigenic site. The Th epitopes are immunosilent on their own, i.e., little, if any, of the antibodies generated by the peptide immunogen constructs will be directed towards the Th epitope, thus allowing a very focused immune response directed to the targeted antigenic site. The promiscuous artificial Th epitopes provide effective and safe peptide immunogens that do not generate inflammatory, anti-self, cell-mediated immune responses following administration.

The present invention is directed to novel promiscuous and artificial T helper cell epitopes (Th epitopes) designed to provide optimum immunogenicity of a target antigenic site. The target antigenic site can include a B cell epitope, a CTL epitope, a peptide hapten, a non-peptide hapten, or any immunologically reactive analogue thereof. The disclosed Th epitopes, when covalently linked to a target antigenic site in a peptide immunogen construct, elicit a strong B cell antibody response or an effector T cell response to the target antigenic site. The Th epitopes are immunosilent on their own, i.e., little, if any, of the antibodies generated by the peptide immunogen constructs will be directed towards the Th epitope, thus allowing a very focused immune response directed to the targeted antigenic site. The promiscuous artificial Th epitopes provide effective and safe peptide immunogens that do not generate inflammatory, anti-self, cell-mediated immune responses following administration.

Protein complex variants, compositions, and methods of use thereof are provided. The protein complex variant includes a cholera toxin B subunit variant having one or more modifications thereto. The method of use thereof includes treating a disease by administering an effective amount of a composition including a cholera toxin B subunit variant to a subject in need thereof.

The invention is directed to a recombinant nucleic acid molecule comprising an expression cassette encoding a polyepitope comprising T-cell antigens from proteins of African Swine Fever Virus. The invention further relates to a viral particle, comprising said recombinant nucleic acid molecule, and to a viral particle comprising B-cell antigens of African Swine Fever Virus. The invention further relates to methods of stimulating an immune response in a pig comprising administering the recombinant molecule of the invention, and/or the viral particle of the invention, to the pig in an amount effective to induce an immune response.

The invention is directed to a recombinant nucleic acid molecule comprising an expression cassette encoding a polyepitope comprising T-cell antigens from proteins of African Swine Fever Virus. The invention further relates to a viral particle, comprising said recombinant nucleic acid molecule, and to a viral particle comprising B-cell antigens of African Swine Fever Virus. The invention further relates to methods of stimulating an immune response in a pig comprising administering the recombinant molecule of the invention, and/or the viral particle of the invention, to the pig in an amount effective to induce an immune response.

The present disclosure provides an adjuvant composition containing 0.2%-15% w/v carbomer, 0.1%-0.5% w/v lecithin, and 0.03%-0.2% w/v ginsenoside. The adjuvant composition of the present disclosure cannot only ensure the long-term clarification and/or stability of the vaccine, but also can effectively stimulate the inactivated antigens and subunit antigens therein to produce high-titer antibodies for immune protection. The inactivated vaccines or subunit vaccines prepared by the adjuvant composition of the present disclosure can be used as a diluent for freeze-dried live virus antigens and has no toxic effect on the live virus antigens.

The present disclosure provides an adjuvant composition containing 0.2%-15% w/v carbomer, 0.1%-0.5% w/v lecithin, and 0.03%-0.2% w/v ginsenoside. The adjuvant composition of the present disclosure cannot only ensure the long-term clarification and/or stability of the vaccine, but also can effectively stimulate the inactivated antigens and subunit antigens therein to produce high-titer antibodies for immune protection. The inactivated vaccines or subunit vaccines prepared by the adjuvant composition of the present disclosure can be used as a diluent for freeze-dried live virus antigens and has no toxic effect on the live virus antigens.

The present disclosure provides methods and compositions for reducing the incidence, severity, and/or duration of at least one sign of respiratory infection. The methods include the steps of administering a composition comprising gastrointestinal microbiota and an immunogenic composition to an animal in need thereof.

The present disclosure provides methods and compositions for reducing the incidence, severity, and/or duration of at least one sign of respiratory infection. The methods include the steps of administering a composition comprising gastrointestinal microbiota and an immunogenic composition to an animal in need thereof.

The present disclosure provides an adjuvant composition containing 0.2%-15% w/v carbomer, 0.1%-0.5% w/v lecithin, and 0.03%-0.2% w/v ginsenoside. The adjuvant composition of the present disclosure cannot only ensure the long-term clarification and/or stability of the vaccine, but also can effectively stimulate the inactivated antigens and subunit antigens therein to produce high-titer antibodies for immune protection. The inactivated vaccines or subunit vaccines prepared by the adjuvant composition of the present disclosure can be used as a diluent for freeze-dried live virus antigens and has no toxic effect on the live virus antigens.