466 results about "Cancer immunotherapy" patented technology

The invention relates to immunotherapeutic compounds and to methods for stimulating an immune response in a subject individual at risk for developing cancer, diagnosed with a cancer, in treatment for cancer, or in post-therapy recovery from cancer or the compounds of the invention can be administered as a prophylactic to a subject individual to prevent or delay the development of cancer.

The present invention includes compositions, methods and kits for inducing an immune response to a tumor and for treating cancer with a Listeria vaccine strain expressing an antigen fused to a truncated LLO protein.

A method for stimulating a immune response against IL-13Rα2 in a subject having or at risk for developing a disease having cells expressing IL-13Rα2 includes the steps of formulating the anti-cancer vaccine outside of the subject and administering the vaccine to the subject in an amount sufficient to stimulate an immune response against IL-13Rα2 in the subject. A composition for stimulating a immune response against IL-13Rα2 in a subject having or at risk for developing a disease having cells expressing IL-13Rα2 includes an isolated agent that can stimulate immune response against IL-13α2.

A method of stimulating an immune response to a tumor in an immunocompetent subject by administering a p53 expression construct to a tumor. The construct expresses p53 in tumor cells in an amount sufficient to stimulate an immune response against the tumor. Both viral and non-viral delivery systems are contemplated. The method can be combined with chemotherapy agents as well as with other cancer therapies.

The present invention provides methods and compositions to confer and / or augment immune responses mediated by cellular immunotherapy, such as by adoptively transferring genetically modified tumor specific CD8+ T cells in the presence of tumor-specific, subset specific genetically modified CD4+ T cells, wherein the CD4+ T cells confer and / or augment a CD8+ T cells ability to sustain anti-tumor reactivity and increase and / or maximize tumor-specific proliferation of the tumor-specific CD8+ T cells of interest. Pharmaceutical formulations produced by the method, and methods of using the same, are also described.

Modular aAPCs and methods of their manufacture and use are provided. The modular aAPCs are constructed from polymeric microparticles. The aAPCs include encapsulated cytokines and coupling agents which modularly couple functional elements including T cell receptor activators, co-stimulatory molecules and adhesion molecules to the particle. The ability of these aAPCs to release cytokines in a controlled manner, coupled with their modular nature and ease of ligand attachment, results in an ideal, tunable APC capable of stimulating and expanding primary T cells.

The present invention relates to Chimeric Antigen Receptors (CAR) that are recombinant chimeric proteins able to redirect immune cell specificity and reactivity toward selected membrane antigens, and more particularly in which extracellular ligand binding is a scFV derived from a BCMA monoclonal antibody, conferring specific immunity against BCMA positive cells. The engineered immune cells endowed with such CARs are particularly suited for treating lymphomas, multiple myeloma and leukemia.

The invention describes compositions and methods of use for 2,5-dihydroxybenzene sulfonic acid compounds and pharmaceutically acceptable salts thereof. The invention provides methods for (a) treating skin cancer; (b) treating cancer of the organs; (c) treating leukemia; (d) improving the efficacy of chemotherapy, radiation therapy and / or cancer immunotherapy; (e) treating rosacea; and (f) treating psoriasis by administration of a composition comprising at least one 2,5-dihydroxybenzene sulfonic acid compound or a pharmaceutically acceptable salt thereof, and, optionally at least one therapeutic agent. Also disclosed are compositions comprising administration of at least one 2,5-dihydroxybenzene sulfonic acid compound, or a pharmaceutically acceptable salt thereof, and, at least one therapeutic agent. In the invention the 2,5-dihydroxybenzene sulfonic acid compounds or pharmaceutically acceptable salts thereof are 2,5-dihydroxybenzene sulfonic acid, calcium 2,5-dihydroxybenzenesulfonate, potassium 2,5-dihydroxybenzenesulfonate, magnesium 2,5-dihydroxybenzenesulfonate and diethylamine 2,5-dihydroxybenzenesulfonate.

Methods and vaccines for suppressing formation of or inhibiting growth of tumors in a host are provided, via administration of a vaccine containing either a fusion protein of the tumor associated antigen fused to a truncated form of listeriolysin or a recombinant form of Listeria monocytogenes which grows and spreads and is capable of expressing the tumor associated antigen alone or as a listeriolysin fusion protein.

The present invention relates to Chimeric Antigen Receptors (CAR) that are recombinant chimeric proteins able to redirect immune cell specificity and reactivity toward selected membrane antigens, and more particularly in which extracellular ligand binding is a scFV derived from a CD33 monoclonal antibody, conferring specific immunity against CD33 positive cells. The engineered immune cells endowed with such CARs are particularly suited for treating lymphomas and leukemia.

Methods and compositions of the invention relate to the enhancement of specific immunotherapies in cancer treatment. In particular, aspects of the invention relate to novel approaches to boost immune function using a complex carbohydrate pharmaceutical compound alone or in combination with other targeted immunotherapy to increase the efficacy of immunotherapy of cancer.

The present invention provides a combination therapy which relies on a small molecule immune stimulator—cyclic-di-nucleotide (CDN)—that activates DCs via a recently discovered cytoplasmic receptor known as STING (Stimulator of Interferon Genes) formulated with allogeneic human tumor cell lines engineered to secrete high amounts of GM-CSF. This combination therapy can provide an ideal synergy of multiple tumor associated antigens, DC recruitment and proliferation, coupled with a potent DC activation stimulus.

A cancer immunotherapy method and composition for treating cancer in a patient comprised of vaccinating a patient with a vaccine comprised of the patient's own malignancy and an immunologic adjuvant, removing primed peripheral blood T lymphocytes from the patient, stimulating the primed T lymphocytes to differentiate into effector lymphocytes in vitro, stimulating the effector T lymphocytes to proliferate in vitro, and infusing the effector T lymphocytes back into the patient.

A generalizable and interpretable deep learning model for predicting microsatellite instability from histopathology slide images is provided. Microsatellite instability (MSI) is an important genomic phenotype that can direct clinical treatment decisions, especially in the context of cancer immunotherapies. A deep learning framework is provided to predict MSI from histopathology images, to improve the generalizability of the predictive model using adversarial training to new domains, such as on new data sources or tumor types, and to provide techniques to visually interpret the topological and morphological features that influence the MSI predictions.

The present invention encompasses compositions and methods for activating, stimulating and isolating antigen-specific T cells. The present invention also relates to compositions of antigen-specific T cells and methods of their use in the treatment and prevention of cancer, infectious diseases, autoimmune diseases, immune disfunction related to aging, or any other disease state where antigen-specific T cells are desired for treatment.

A human cell line, which lacks major histocompatibility class I (MHC-I) antigens and major histocompatibility class II (MHC-II) antigens and which has been modified to comprise and express (i) a nucleotide sequence encoding an immunomodulator and (ii) a nucleotide sequence encoding a viral antigen, and a method of inducing or stimulating an immune response in a human to a viral-associated disease or cancer comprising administering to the human (i) the aforementioned human cell line in an amount sufficient to induce or stimulate an immune response to the viral associated disease or cancer, (ii) a human cell line, which lacks MHC-I and MHC-11 antigens and which has been modified to comprise and express a nucleotide sequence encoding an immunomodulator, and a human cell line, which lacks MHC-I and MHC-II antigens and which has been modified to comprise and express a nucleotide sequence encoding an antigen of EBV, simultaneously or sequentially in either order, by the same or different routes, in amounts sufficient to induce or stimulate an immune response to the viral-associated disease or cancer, or (iii) an immunomodulator and a human cell line, which lacks MHC-I and MHC-II antigens and which has been modified to comprise and express a nucleotide sequence encoding an antigen of EBV, simultaneously or sequentially in either order, by the same or different routes, in amounts sufficient to induce or stimulate an immune response to the viral associated disease or cancer.

Mutations to the tumor suppressor protein p53 have been observed in 40-60% of all human cancers. These mutations are often associated with high nuclear and cytoplasmic concentrations of p53. Since many tumors exhibit highly elevated p53 levels, the protein is an attractive target for cancer immunotherapy. Unfortunately, p53 is an autoantigen that is likely to be tolerated as a self-protein by the immune system. The present invention is based on the discovery that this self-tolerance can be overcome by administration of recombinant modified vaccinia Ankara (MVA) containing a nucleic acid that encodes p53 (rMVAp53). The invention discloses a method of generating a p53-specific CTL-response to tumor cells expressing mutated p53 by administering a composition comprising rMVAp53. Administration of rMVAp53 decreases tumor development, tumor growth, and mortality in a variety of malignant cell types. These effects are enhanced by administration of CTLA-4 blocker and / or CpG oligodeoxynucleotide immunomodulators.