Described herein are implantable devices comprising cells engineered to express and secrete antigens of infectious agents. The devices are useful for inducing protective immune responses against infectious agents.

The disclosure features immune cell delivery lipid nanoparticle (LNP) compositions that allow for enhanced delivery of agents, e.g., nucleic acids, such as therapeutic and/or prophylactic RNAs, to immune cells, in particular T cells, as well as B cells, dendritic cells and monocytes. The LNPs comprise an effective amount of an immune cell delivery potentiating lipid such that delivery of an agent by an immune cell delivery LNP is enhanced as compared to an LNP lacking the immune cell delivery potentiating agent. Methods of using the immune cell delivery LNPs for delivery of agents, e.g., nucleic acid delivery, for protein expression, for modulating immune cell activity and modulating immune responses are also disclosed.

The disclosure features immune cell delivery lipid nanoparticle (LNP) compositions that allow for enhanced delivery of agents, e.g., nucleic acids, such as therapeutic and/or prophylactic RNAs, to immune cells, in particular T cells, as well as B cells, dendritic cells and monocytes. The LNPs comprise an effective amount of an immune cell delivery potentiating lipid such that delivery of an agent by an immune cell delivery LNP is enhanced as compared to an LNP lacking the immune cell delivery potentiating agent. Methods of using the immune cell delivery LNPs for delivery of agents, e.g., nucleic acid delivery, for protein expression, for modulating immune cell activity and modulating immune responses are also disclosed.

The present disclosure provides compositions and methods useful for treating Glioblastoma Multiforme (GBM) which comprise virus-like particles (VLPs) comprising murine leukemia virus (MLV) core proteins and the human cytomegalovirus epitopes, gB and pp65, formulated with an adjuvant comprising a saponin and a TLR4 agonist.

The present disclosure provides compositions and methods useful for treating Glioblastoma Multiforme (GBM) which comprise virus-like particles (VLPs) comprising murine leukemia virus (MLV) core proteins and the human cytomegalovirus epitopes, gB and pp65, formulated with an adjuvant comprising a saponin and a TLR4 agonist.

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.

Provided herein are genetically modified arenaviral vectors suitable as vaccines for prevention and treatment of cytomegalovirus infections and reactivation. Also provided herein are pharmaceutical compositions and methods for the treatment of cytomegalovirus infections and reactivation. Specifically, provided herein are pharmaceutical compositions, vaccines, and methods of treating cytomegalovirus infections and reactivation.

Provided herein are genetically modified arenaviral vectors suitable as vaccines for prevention and treatment of cytomegalovirus infections and reactivation. Also provided herein are pharmaceutical compositions and methods for the treatment of cytomegalovirus infections and reactivation. Specifically, provided herein are pharmaceutical compositions, vaccines, and methods of treating cytomegalovirus infections and reactivation.

Disclosed herein is the use of a first population of allogeneic T-cells recognizing a first EBV epitope, and a second allogeneic population recognizing a second EBV epitope in the treatment of EBV-associated disorders. Also disclosed is the use of a population of allogeneic T-cells recognizing an EBV antigen in combination with a further therapeutic agent such as an immunotherapeutic agent, a MAPK, BET or MEK. pathway inhibitor for treating EBV-associated disease.