Provided herein are nucleic acid molecules encoding viral replication proteins and antigenic coronavirus proteins or fragments thereof. Also provided herein are compositions that include nucleic acid molecules encoding viral replication and antigenic proteins, and lipids. Nucleic acid molecules provided herein are useful for inducing immune responses.

The present invention provides a vaccine for feline leukemia virus and methods of making and using the vaccine alone, or in combinations with other protective agents.

The present disclosure relates to IL2 agonists with improved therapeutic profiles.

The present disclosure relates to IL2 agonists with improved therapeutic profiles.

The present disclosure relates to methods and compositions for inducing an immune response in a subject comprising co-administering to the subject RNA encoding peptides or proteins used for vaccination and RNA encoding IL-2 attached to a pharmacokinetic modifying group and/or RNA encoding IL-7 attached to a pharmacokinetic modifying group. The vaccine is particularly effective if an immune checkpoint inhibitor such as an anti-PD-L1 antibody is further administered. The present disclosure further relates to methods involving the target-specific delivery of a cytokine to a target organ or target tissue.

This invention relates to adjuvant formulations comprising various combinations of triterpenoids, sterols, immunomodulators, polymers, and Th2 stimulators; methods for making the adjuvant compositions; and the use of the adjuvant formulations in immunogenic and vaccine compositions with different antigens. This invention further relates to the use of the formulations in the treatment of animals.

The present disclosure provides compositions and methods useful for treating Glioblastoma Multiforme (GBM), e.g., compositions comprising virus-like particles (VLPs) comprising Moloney Murine leukemia virus (MMLV) core proteins and the human cytomegalovirus epitopes, gB and pp65, formulated with GM-CSF, which, at dose of at least 10 g gB/pp65Gag, reverse dysregulation of anti-HCMV immunity in GBM patients.

Embodiments relate to a method comprising (a) expressing a vector comprising a PSGL-1 (P-selectin glycoprotein ligand-1) or a mutant thereof in a VPC (virus producing cell); and blocking a virus infection by inactivating an infectivity of a released virions from the VPC; or (b) expressing a glycoprotein or a mutant thereof in the VPC; blocking the virus infection by preventing binding of the released virions to a target cell; inactivating infectivity of the released virions; and targeting a viral infection. Other embodiments relate to (1) a broad-spectrum anti-viral product comprising: a vector expressing a glycoprotein or a mutant thereof in a VPC; and blocking a virus infection by inactivating infectivity of a released virion from the VPC; and (2) a vaccine comprising a viral particle is configured to a live attenuated or an inactivated or a non-infectious, wherein the viral particle are produced in a VPC.

Nucleic acid sequences encoding improved Herpes Simplex Virus Thymidine Kinases are provided, including their use in diagnostic and therapeutic applications. The thymidine kinases may be mutated using conservative mutations, non-conservative mutations, or both. Also provided are gene therapeutic systems, including viral and retroviral particles.

This invention relates to adjuvant formulations comprising various combinations of triterpenoids, sterols, immunomodulators, polymers, and Th2 stimulators; methods for making the adjuvant compositions; and the use of the adjuvant formulations in immunogenic and vaccine compositions with different antigens. This invention further relates to the use of the formulations in the treatment of animals.