Subject matter of the present invention is a soluble PDGFR-alpha-Fc chimera or a PDGFR-alpha derived peptide or an anti-PDGFR-alpha antibody or a PDGFR-alpha antibody fragment or anti-PDGFR-alpha non-Ig scaffold for inhibiting HCMV entry for use in a method of treatment in a subject that has been infected by HCMV or for use in a method of prophylaxis of HCMV infection in a subject that has not yet been infected by HCMV.

The present invention relates to a method and composition for optimized intracellular delivery of nucleic acids, in particular mRNA. In addition to mRNA, the composition, in particular a nanoparticle, may include a glycolipid antigen. Combinations with checkpoint inhibitors are also provided. The method and composition of the invention targets antigen presenting cells and is especially useful for immunotherapy and vaccination purposes.

Recombinant microorganisms, pharmaceutical compositions thereof, and methods of protein display on the cell surface of the microorganisms are disclosed.

The present disclosure relates to the technical field of biomedicine, and provides an anti-physaliatoxin nanobody, and a preparation method and use thereof. The nanobody is a VHH antibody with an amino acid sequence shown in SEQ ID NO. 1. Affinity analysis shows that the nanobody of the present disclosure has prominent affinity. It is proved by small animal experiments that, after mice in an antibody protection group pre-injected with the nanobody of the present disclosure are injected with physaliatoxin, no mice shows toxic symptoms, and during continuous observation for one month, no toxic lethality occurs, indicating that the nanobody of the present disclosure shows excellent anti-physaliatoxin effects, excellent preventive or therapeutic effects on jellyfish stings, and promising clinical application prospects.

Nucleic acid molecules and compositions comprising: a nucleic acid sequence that encodes IL-12 p35 subunit or a functional fragment thereof and/or a nucleic acid sequence that encodes IL12 p40 subunit or a functional fragment thereof, are disclosed. The nucleic acid molecules and compositions further comprising a nucleic acid sequence that encodes an immunogen are also disclosed. Method of modulating immune response and methods of inducing an immune response against an immunogen are disclosed. Therapeutic and prophylactic vaccination methods are also disclosed.

The present invention relates to combination therapies for treating Alzheimer's disease or an amyloidosis-associated pathological condition comprising co-administering a therapeutically effective amount of a first compound, and a therapeutically effective amount of a second compound. In certain embodiments, the first compound or the second compound inhibits AB peptide polymerization; is an anti-inflammatory; improves cognitive function, mood, or social behavior; is associated with Tau or alpha-synuclein; or regulates amyloid peptide washout.

The invention relates to DPP4-binding domains, as well as antibodies and chimeric antigen receptors (CAR) comprising the same. Also disclosed are methods for treating, preventing or alleviating senescence-related diseases or disorders, or for depleting and/or killing senescent cells.

Brachyury protein can be used to induce Brachyury-specific CD4+ T cells in vivo and ex vivo. It is also disclosed that Brachyury protein can be used to stimulate the production of both Brachyury-specific CD4+ T cells and Brachyury-specific CD8+ T cells in a subject, such as a subject with cancer. In some embodiments, the methods include the administration of a Brachyury protein. In additional embodiments, the methods include the administration of a nucleic acid encoding the Brachyury protein, such as in a non-pox non-yeast vector. In further embodiments, the method include the administration of host cells expressing the Brachyury protein.

Described herein are FGF-23 epitope peptides, methods of producing antibodies in laying hens by injecting the peptides, and methods of improving resistance to eggshell breakage and/or increasing eggshell strength by administering an FGF-23 epitope peptide to a laying hen.

Compounds containing TRPV6-binding peptides and their use in the detection and diagnosis of cancer are described. Also described are methods for detecting and staging cancer that use the compounds of the invention. Compounds containing TRPV6-binding peptides are useful for the delivery of diagnostic and therapeutic agents to cells or tumors that express TRPV6.