Disclosed herein are immunogenic compositions for producing immediate and sustained immunity to infectious viral and bacteriological pathogens. A univalent immunogenic composition is disclosed comprising an isolated antigen and a polynucleotide formulated into a nanoparticle or liposome. Furthermore, multivalent immunogenic compositions are disclosed comprising multiple univalent immunogenic compositions. Also disclosed, are methods of inducing protective or therapeutic immune responses in individuals comprising administering one or more univalent immunogenic compositions.

The present invention relates to a patient-specific tumor treatment targeting individual expression patterns of tumor antigens, in particular shared tumor antigens, and individual tumor mutations. In one aspect, the present invention relates to a method for preventing or treating cancer in a patient comprising the steps of: (i) inducing a first immune response against one or more tumor antigens in the patient, and (ii) inducing a second immune response against one or more tumor antigens in the patient wherein the second immune response is specific for cancer specific somatic mutations present in cancer cells of the patient.

Amphiphilic oligonucleotide conjugates that enhance adjuvant function are disclosed. The conjugates typically include: a lipophilic component, and conjugated thereto (directly or indirectly) an immunomodulating oligonucleotide that, if it were not conjugated to the lipophilic component, would suppress TLR7 and/or TLR8 stimulation. In the presence of albumin, these conjugates significantly enhance adjuvant function, in particular the function of TLR7/8-mediated adjuvants such as an imidazoquinolinamine. The conjugates can be administered, along with an adjuvant compound, to a subject in order to cause and/or enhance an immune response (for instance, to an infectious agent or a cancer antigen) in the subject.

Methods and compositions for identifying tumor antigens of human lymphocytes, and for treating subjects having cancer, are provided herein.

Disclosed herein is a personalized tumor vaccine comprising attenuated cancer cells and a method of using said personalized tumor vaccine to treat cancer.

The present invention provides polymers, microparticles, nanoparticles, and compositions thereof for inducing an immune response and preventing or treating a metabolic inhibition in a subject. The present invention additionally provides kits that find use in the practice of the methods of the invention.

The present invention relates to improved strategies, compositions, and methods for producing shared neoplasia vaccines, including “off the shelf” pre-furnished shared neo-epitope warehouses, which can be used to enable the rapid production of bladder cancer neoantigen-based vaccines. The present invention relates to identified and designed shared neo-epitopes based on non-synonymous mutations that are present in at least 1% of subjects having bladder cancer. The strategies, compositions, and methods include the identification of neo-epitopes that are known or determined (e.g. predicted) to engage regulatory T cells and/or other detrimental T cells (including T cells with potential host cross-reactivity and/or anergic T cells) and exclusion of such identified neo-epitopes that are known or determined (e.g. predicted) to engage regulatory T cells and/or other detrimental T cells (including T cells with potential host cross-reactivity and/or anergic T cells) from the shared neo-epitopes that are to be used in the shared neoantigen-based vaccines.

The invention relates to a non-coding sequence of deoxyribonucleic acids comprising at least one sequence motif N.sup.1N.sup.2CGN.sup.3N.sup.4, wherein N is a nucleotide comprising A, C, T, or G, and C is deoxycytidine, G is deoxyguanosine, A is deoxyadenosine and T is deoxy-thymidine for the treatment of viral infections. In particular, the non-coding sequence of deoxyribonucleic acids is used in combination with antiretroviral therapy and/or histone de-acetylase inhibitors.

The disclosure is generally related to spherical nucleic acids (SNAs), structures comprising a nanoparticle core surrounded by a shell of oligonucleotides. In some aspects the disclosure provides a spherical nucleic acid (SNA) comprising: (a) a nanoparticle core; and (b) a shell of oligonucleotides attached to the nanoparticle core, wherein one or more oligonucleotides in the shell of oligonucleotides is attached to the nanoparticle core through a hydrophobic anchor comprising one or more dodecane (C12) subunits. Methods of making and using the SNAs are also provided herein.

The present disclosure relates to a composition comprising PIC for treatment of cancer. More particularly, the present disclosure discloses a composition for treatment of cancer comprising polyinosinic-polycytidylic acid, an antibiotic or polyamine compound, a positive ion, and optionally a virus, and the use thereof in manufacture of a medicament for treatment of cancer. No figure for publication