The present disclosure relates to Salmonella Gallinarum mutant strains and uses thereof. A vaccine composition according to an aspect has no risk of recovering pathogenicity, has no residual pathogenicity due to detoxification of an endotoxin, and does not cause lesions and bacterial re-isolation, thereby exhibiting significantly improved safety compared to the existing fowl typhoid vaccines. In addition, since the vaccine composition induces a high-level immune response even when administered to young chicks, it may be used regardless of age, and as the vaccine strain may be used as a live vaccine having an excellent protective capability by itself, the vaccine composition may be useful for preventing and alleviating fowl typhoid.

A method of treating or preventing the onset of diabetes or diabetic complications comprises administering to a subject a composition comprising an anti-AGE antibody. A composition for treating or preventing the onset of diabetes or diabetic complications comprises a first anti-AGE antibody, a second anti-AGE antibody and a pharmaceutically acceptable carrier. The first anti-AGE antibody is different from the second anti-AGE antibody. A method of treating or preventing the onset of diabetes or diabetic complications comprises immunizing a subject in need thereof against AGE-modified proteins or peptides of a cell.

The present invention provides a modified influenza viruses comprising haemagglutinin and a headless haemagglutinin. The haemagglutinin is provided by a source exogenous to the virus and the headless haemagglutinin is encoded by the viral genome. The present disclosure also provides modified influenza viruses comprising a headless haemagglutinin. The present disclosure also provides vaccine compositions comprising the modified influenza viruses. The vaccine compositions of the present disclosure can elicit broad neutralizing antibodies and provide cross-protection across various influenza strains. Methods, compositions and cells for propagating the modified influenza viral strains related to vaccines is also provided.

The present application relates to arenavirus particles containing a genome engineered such that an arenaviral open reading frame (“ORF”) is sequestered into two or more functional fragments and these fragments are expressed from two or more viral mRNA transcripts. The arenavirus particles described herein are genetically stable and provide high-level transgene expression. In certain embodiments, the arenavirus particles are tri-segmented. In particular, described herein is a nucleotide sequence comprising one or more ORFs comprising a nucleotide sequence encoding a functional fragment of arenavirus GP, NP, L or Z. Also described herein is an arenavirus particle containing a genome engineered such that an arenaviral ORF is sequestered into two or more functional fragments and these fragments are expressed from two or more viral mRNA transcripts. Also described herein is an arenavirus genomic or antigenomic segment engineered such that the transcription thereof results in one or more mRNA transcripts comprising a nucleotide sequence encoding a functional fragment of arenavirus GP, NP, L or Z. The arenavirus particles described herein may be suitable for vaccines and/or treatment of diseases and/or for the use in immunotherapies.

The present document describes compounds, or pharmaceutically acceptable salt thereof, of a core formula (I) Wherein R1 includes an amino group. These compounds are particularly useful in the formulation and in vivo and ex vivo delivery of nucleic acid and protein therapeutics for preparing and implementing T cell transfection, gene editing, cancer therapies, cancer prophylactics, and in the preparation of vaccines.

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The present invention includes composition and methods for composition for the oral delivery of a therapeutic agent that reduces, desensitizes, or prevents food, respiratory and other allergies. First pollen is cleaned to remove naturally-occurring allergic plant proteins to form a cleaned pollen and a therapeutically effective amount of an allergen is introduced into the cleaned pollen. The allergen-loaded cleaned pollen is delivered to a subject in need of therapy.

Disclosed are compositions comprising an expressible nucleic acid sequence comprising a first nucleic acid sequence comprising a leader sequence or a pharmaceutically acceptable salt thereof; and a second nucleic acid sequence comprising a sequence that encodes a trimer of a retroviral envelope or a pharmaceutically acceptable salt thereof. In some embodiments, the expressible nucleic acid sequence further comprises a nucleic acid sequence encoding at least one viral antigen or a pharmaceutically acceptable salt thereof. In some embodiments, the expressible nucleic acid sequence further comprises at least one nucleic acid sequence encoding a linker. Also disclosed are pharmaceutical compositions comprising these compositions and methods of using the disclosed compositions.

The present disclosure discloses a whole avian-origin reverse genetic manipulation system and its use in producing a recombinant H7N9 avian influenza vaccine. The whole avian-origin reverse genetic manipulation system is an eight-plasmid reverse genetic manipulation system based on H5N2 subtype avian influenza D7 virus strain, which is comprised of 8 recombinant plasmids respectively containing PB2, PB1, PA, HA, NP, NA, M and NS gene fragments derived from H5N2 subtype avian influenza D7 virus strain. The genome of the recombinant H7N9 subtype avian influenza vaccine of the present disclosure is comprised of an NA gene and a modified HA gene derived from a highly pathogenic H7N9 subtype avian influenza virus strain, as well as PB2, PB1, PA, NP, M and NS genes derived from H5N2 subtype avian influenza D7 virus strain.

A recombinant protein and a vaccine composition for porcine epidemic diarrhea (PED) are provided. The recombinant protein is a fusion protein formed by connecting the truncated segment of S protein (Spike protein) from porcine epidemic diarrhea virus (PEDV) in tandem with the Fc fragment of porcine IgG, and the truncated fragment of S protein is preferably selected from N-terminal domain (NTD) with sialic acid binding activity in S1 subunit of S protein, neutralizing epitope domain (COE) and multiple B-cell epitopes in S2 subunit; the vaccine composition contains recombinant protein and adjuvants. The recombinant protein of the application can produce IgG antibody and neutralizing antibody titers of rather high level after immunizing mice, and the proportions of CD3.sup.+CD4.sup.+, CD3.sup.+CD8.sup.+ lymphocytes and the concentrations of IFN-γ and IL-4 in lymphocytes are significantly increased.

This document provides methods and materials related to selected severe acute respiratory distress coronavirus 2 (SARS-CoV-2) polypeptides. For example, this document provides vaccine compositions that contain one or more selected SARS-CoV-2 polypeptides provided herein and that have the ability to induce or increase immune responses against coronaviruses such as SARS-CoV-2 within a mammal (e.g., a human).