Compositions and methods for modified dendrimer nanoparticle (MDNP) delivery of therapeutic, prophylactic and/or diagnostic agent such as large repRNA molecules to the cells of a subject have been developed. MDNPs efficiently drive proliferation of antigen-specific T cells against intracellular antigen, and potentiate antigen-specific antibody responses. MDNPs can be multiplexed to deliver two or more different repRNAs to modify expression kinetics of encoded antigens and to simultaneous deliver repRNAs and mRNAs including the same UTR elements that promote expression of encoded antigens.

Compositions, methods of making, and methods of using, xenoantigen-displaying anti-cancer vaccines are described.

The present invention relates to an immunotherapeutic and preventive vaccine including natural killer cells loaded with ligands of natural killer T cells and cancer antigens, and more particularly, to an immunotherapeutic or preventive vaccine including natural killer cells loaded with alpha-galactosylceramide (-GC), which is a natural killer T cell ligand and a type of glycolipid. The composition of the present invention can be used as an anticancer immunotherapeutic agent because natural killer cells are easier to obtain than dendritic cells, and immunization with natural killer cells loaded with ligands of natural killer T cells and antigens induces significant levels of cytotoxic T lymphocyte responses as well as therapeutic effects on malignant tumors.

The invention relates to therapeutic nanobiologic compositions and methods of treating patients who have had an organ transplant, or who suffer from atherosclerosis, arthritis, inflammatory bowel disease including Crohn's, autoimmune diseases including diabetes, and/or autoinflammatory conditions, or after a cardiovascular events, including stroke and myocardial infarction, by inhibiting trained immunity, which is the long-term increased responsiveness, the result of metabolic and epigenetic re-wiring of myeloid cells and their stem cells and progenitors in the bone marrow and spleen and blood induced by a primary insult, and characterized by increased cytokine excretion after re-stimulation with one or multiple secondary stimuli.

Compositions and methods for modified dendrimer nanoparticle (MDNP) delivery of therapeutic, prophylactic and/or diagnostic agent such as large repRNA molecules to the cells of a subject have been developed. MDNPs efficiently drive proliferation of antigen-specific T cells against intracellular antigen, and potentiate antigen-specific antibody responses. MDNPs can be multiplexed to deliver two or more different repRNAs to modify expression kinetics of encoded antigens and to simultaneous deliver repRNAs and mRNAs including the same UTR elements that promote expression of encoded antigens.

The present invention relates to a modified virus-like particle (VLP) of cucumber mosaic virus (CMV) comprising at least one chimeric CMV polypeptide, wherein said at least one chimeric CMV polypeptide comprises, preferably consists of (i) a CMV polypeptide, wherein said CMV polypeptide comprises a coat protein of CMV or an amino acid sequence having a sequence identity of at least 75% with SEQ ID NO:48; and (ii) a polypeptide comprising, preferably consisting of, a stretch of consecutive negative amino acids, wherein said negative amino acids are independently selected from aspartic acid or glutamic acid, wherein said polypeptide is inserted between any amino acid residue of said CMV polypeptide corresponding to any amino acid residue between position 75 and position 85 of SEQ ID NO:48, as well as to compositions and pharmaceutical compositions comprising such modified VLPs to which antigens are linked, which compositions preferably serve as vaccine platform for generating immune responses, in particular antibody responses, against said antigens linked to the modified CMV VLPs.

Aspects of the disclosure relate to nucleic acid vaccines. The vaccines include at least one RNA polynucleotides having a open reading frame encoding at least varicella zoster virus (VZV) antigen. Methods for preparing and using such vaccines are also described.

The present disclosure describes PLPC-DB, an ultrapure phospholipoproteomic composition consisting of essential phospholipids, bioactive proteins, and intercellular regulatory factors, derived from the supernatant of peripheral blood mononuclear cells (PBMCs). This composition achieves a purity level exceeding 99% through a patented purification process that integrates high-speed advanced centrifugation and selective ultrafiltration, ensuring the structural stability and functional integrity of its bioactive components. PLPC-DB is optimized for advanced research and diagnostic applications, providing reproducibility, consistency, and safety across multicenter studies. The essential biomolecular components of PLPC-DB include phosphatidylcholine and phosphatidylserine, which contribute to membrane stability and intracellular signaling, while cell communication peptides enhance intercellular signaling, homeostatic regulation, and biochemical coordination. Structural and regulatory lipids support cell membrane biogenesis and functional stability, whereas adhesion and signaling proteins mediate cell-cell interactions and immune response coordination. Additionally, bioactive regulatory factors modulate immune and inflammatory responses, contributing to tissue regeneration and metabolic homeostasis.