Provided herein are vaccine composition comprising an antigen conjugated to a capsid, wherein the capsid comprises wild type or native sequence. Provided herein are also vaccine composition comprising an antigen conjugated to a capsid, wherein said capsid comprises at least one mutation, such as a non-natural mutation. Such compositions are useful in the treatment and prevention of pathogenic infections, inflammatory diseases, and neurodegenerative disease, and cancer, among others.

A composition comprising mesoporous silica rods comprising an immune cell recruitment compound and an immune cell activation compound, and optionally comprising an antigen such as a tumor lysate. The composition is used to elicit an immune response to a vaccine antigen.

The present invention provides compositions and systems for delivery of nanocarriers to cells of the immune system. The invention provides vaccine nanocarriers capable of stimulating an immune response in T cells and/or in B cells, in some embodiments, comprising at least one immunomodulatory agent, and optionally comprising at least one targeting moiety and optionally at least one immunostimulatory agent. The invention provides pharmaceutical compositions comprising inventive vaccine nanocarriers. The present invention provides methods of designing, manufacturing, and using inventive vaccine nanocarriers and pharmaceutical compositions thereof. The invention provides methods of prophylaxis and/or treatment of diseases, disorders, and conditions comprising administering at least one inventive vaccine nanocarrier to a subject in need thereof.

Embodiments of the disclosure include methods and compositions useful for treating cancer in an immunogenic manner so as to elicit local tumor regression, while priming systemic immunity. In one embodiment, there is expansion of tumor-specific immune cells through administration of fibroblasts, either natural or modified in an intratumoral and/or peritumoral manner. In other embodiments, manipulation of a local tumor microenvironment is achieved by injections of immune-modulating fibroblasts to facilitate expansion of immune effector cells, which are subsequently re-stimulated in the periphery by antigenic exposure. In another embodiment, agents are provided that allow for systemic derepression of immunity, while optionally augmenting ability of immune effector cells to expand and kill tumor cells.

The present invention relates to engineered extra-cellular vesicle internalizing receptors that have the ability to enhance uptake, processing, and presentation to T-cells of tumor-associated antigens by an antigen-presenting cell. It further relates to vectors or antigen presenting cells expressing said receptors, composition and uses thereof for the prevention and/or treatment of a cancer.

The invention relates to immunotherapeutic treatment of cancer. In particular, the invention relates to methods of treating cancer carrying a histone H3 K27M (H3K27M) mutation (e.g., diffuse midline glioma with H3K27M mutation) using immunotherapeutic compositions comprising immune cells engineered to express GD2-specific chimeric antigen receptors.

In one embodiment, the present disclosure provides an engineered cell having a first chimeric antigen receptor polypeptide including a first antigen recognition domain, a first signal peptide, a first hinge region, a first transmembrane domain, a first co-stimulatory domain, and a first signaling domain; and a second chimeric antigen receptor polypeptide including a second antigen recognition domain, a second signal peptide, a second hinge region, a second transmembrane domain, a second co-stimulatory domain, and a second signaling domain; wherein the first antigen recognition domain is different than the second antigen recognition domain.

Aspects of the disclosure relate to novel scFv molecules that are useful for incorporation into novel chimeric antigen receptors with enhance anti-tumor activity. Further aspects relate to a polypeptide comprising a CAR comprising, in order from amino proximal to carboxy proximal end, a scFv, a transmembrane domain, a torsional linker, and a cytoplasmic region comprising a primary intracellular signaling domain, wherein the torsional linker comprises 1-12 alanine residues. Also described are nucleic acids comprising a sequence encoding a polypeptide of the disclosure, vectors, such as lentiviral vectors comprising the nucleic acids of the disclosure, cells comprising and/or expressing nucleic acids and/or polypeptides of the disclosure, and populations of cells comprising the cell embodiments of the disclosure. Also provided are methods of making cells that express a polypeptide and methods of treating patients with the polypeptides and cell compositions of the disclosure.

The present invention relates to a cell which comprises; (a) a chimeric antigen receptor (CAR) or a transgenic T-cell receptor (TCR); and (b) a FasL-binding receptor (FLBR) comprising; (i) a Fas ectodomain and a TNFR endodomain, wherein the TNFR endodomain comprises the signalling portion of the decoy receptor 2 (DcR2), GITR, CD30, XEDAR, CD40, CD27, BCMA or Fn14 endodomain, or (ii) a membrane-bound decoy receptor 3 (DcR3).

Some embodiments of the present disclosure are directed to methods that include delivering to a subject a nucleic acid encoding an antigen, wherein the nucleic acid is delivered via a tumor-selective vehicle or via intratumoral injection, and delivering to the subject an immune cell expressing a receptor that binds to the antigen.