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T Cell Receptors Targeting CDKN2A Mutations for Cancer Immunotherapy
Abstract: Cyclin-dependent kinase inhibitor 2A gene, also known as CDKN2A, is a tumor suppressor gene and is commonly inactivated through somatic mutations in many human cancers. For example, inactivation of CDKN2A is highly prevalent in melanoma, gastrointestinal and pancreatic cancers. Through germline mutations, CDKN2A is associated with predisposition...
Published: 4/8/2024   |   Inventor(s): Sri Krishna, Shoshana Levi, Paul Robbins, Steven Rosenberg, Shirley Nah, Rami Yoseph, Frank Lowery
Keywords(s): adoptive cell therapy, CDKN2A, cyclin dependent kinase inhibitor 2A, Immunotherapy, Krishna, MELANOMA, Neoantigen, Rosenberg, T Cell Receptor, TCR
Category(s): Collaboration Sought > Licensing, Application > Therapeutics, TherapeuticArea > Oncology, Collaboration Sought > Collaboration
Extremely Rapid Method to Isolate Neoantigen Reactive T Cell Receptors (TCRs)
Abstract: Adoptive cell transfer (ACT) uses tumor infiltrating lymphocytes (TILs) that recognize unique antigens expressed by cancer cells (“neoantigens”). Neoantigen specific TIL administration in patients has resulted in long term regression of certain metastatic cancers. However, one of the challenges of ACT and engineered T cell receptor (TCR) therapies...
Published: 4/8/2024   |   Inventor(s): Sri Krishna, Paul Robbins, Rami Yoseph, James Yang, Kenichi Hanada, Frank Lowery, Steven Rosenberg
Keywords(s): act, Adoptive Cell Transfer, Immunotherapy, Neoantigen, Rosenberg, T Cell Receptor, TCR, TIL, tumor, Tumor Infiltrating Lymphocyte
Category(s): Collaboration Sought > Collaboration, Collaboration Sought > Licensing, Application > Therapeutics, TherapeuticArea > Oncology
High-Throughput Generation of Induced Pluripotent Stem Cells Carrying Antigen-Specific T Cell Receptors from Tumor Infiltrated Lymphocytes
Abstract: One form of adoptive T cell therapy (ACT) consists of harvesting tumor infiltrating lymphocytes (TIL), screening and isolating TIL which display tumor antigen-specific T-cell receptors (TCR), expanding the isolated T cells in vitro, and reinfusing them into the patient for treatment. While highly active in the treatment of certain cancers...
Published: 4/8/2024   |   Inventor(s): Raul Sakoda, S M Rafiqul Islam, Naritaka Tamaoki, Takuya Maeda, Nicholas Restifo
Keywords(s): act, adoptive cell therapy, ANTIGEN-SPECIFIC, Cancer Targets, Immunotherapy, Induced Pluripotent Stem Cells, iPSC, Restifo, Rosenberg, T Cell Receptors, TCR, TIL, Tumor Infiltrated Lymphocytes
Category(s): TherapeuticArea > Oncology, TherapeuticArea > Immunology, Application > Therapeutics, Collaboration Sought > Licensing
T Cell Receptors Targeting p53 Mutations for Cancer Immunotherapy and Adoptive Cell Therapy
Abstract: The tumor protein p53 is a cell cycle regulator. It responds to DNA damage by triggering the DNA repair pathway and allowing cell division to occur or inducing cell growth arrest, cellular senescence, and/or apoptosis. p53 therefore acts as a tumor suppressor by preventing uncontrolled cell division. However, mutations in p53 that impair...
Published: 4/8/2024   |   Inventor(s): Drew Deniger, Parisa Malekzadeh, Winifred Lo, Rami Yoseph, Paul Robbins, Maria Parkhurst, Anna Pasetto, Yong-Chen Lu, Steven Rosenberg
Keywords(s): Immunotherapy, p53, Rosenberg, T Cell Receptor, TCR, Tumor Protein P53
Category(s): Application > Therapeutics, Collaboration Sought > Licensing, Collaboration Sought > Collaboration, TherapeuticArea > Oncology
A Dendritic Cell Vaccine to Immunize Cancer Patients Against Mutated Neoantigens Expressed by the Autologous Cancer
Abstract: Vaccines against non-viral cancers target mainly differentiation antigens, cancer testis antigens, and overexpressed antigens.  One common feature to these antigens is their presence in central immunological tolerance. Using these vaccines, T cells underwent depletion of high avidity clones directed against such antigens. This depletion can...
Published: 4/8/2024   |   Inventor(s): Gal Cafri, Paul Robbins, Jared Gartner, Steven Rosenberg
Keywords(s): CANCER, Dendritic cells, Immunotherapy, Neoantigens, Rosenberg, T Cells, vaccines
Category(s): Collaboration Sought > Collaboration, Collaboration Sought > Licensing, TherapeuticArea > Oncology, Application > Vaccines
Neoantigen T Cell Therapy with Neoantigen Vaccination as a Combination Immunotherapy Against Cancer
Abstract: Adoptive cell therapy (ACT) is a breakthrough form of cancer immunotherapy that utilizes autologous, antitumor T cells to attack tumors through recognition of tumor-specific mutations, or neoantigens. A major hurdle in the development of ACT is the exhausted phenotype exhibited by many neoantigen-specific T cells, which limits their efficacy...
Published: 4/8/2024   |   Inventor(s): Sri Krishna, Zhiya Yu, Kenichi Hanada, Steven Rosenberg
Keywords(s): act, Adoptive Cell Transfer, Immunotherapy, Krishna, Neoantigen, Rosenberg, T-Cell Receptor, TCR, Vaccine
Category(s): Collaboration Sought > Collaboration, Collaboration Sought > Licensing, TherapeuticArea > Oncology, Application > Therapeutics
Cell Lines that Constitutively Express High-Frequency KRAS and P53 Mutations and Human Leukocyte Antigens (HLAs)
Abstract: Adoptive cell therapy (ACT) is a breakthrough form of cancer immunotherapy that utilizes tumor infiltrating lymphocytes (TILs) or genetically engineered T cells to attack tumor cells through recognition of tumor-specific antigens. A major hurdle in the development of ACT is the identification and isolation of T cells that recognize antigens...
Published: 5/8/2024   |   Inventor(s):  
Keywords(s): act, adoptive cell therapy, Antigen Presenting Cells, APC, cell lines, HLA, Human Leukocyte Antigen, Immunotherapy, KRAS, Levin, p53, Rosenberg, T Cell Receptor, TCR, TIL, Tumor Infiltrating Lymphocytes, Tumor-Specific Antigen
Category(s): Collaboration Sought > Licensing, TherapeuticArea > Oncology, TherapeuticArea > Immunology, Application > Research Materials, TherapeuticArea > Infectious Disease
T Cell Receptors Targeting KRAS Mutants for Cancer Immunotherapy/Adoptive Cell Therapy
Abstract: Mutations in the Kirsten rat sarcoma viral oncogene homolog (KRAS) gene are among the most common oncogenic drivers in human cancers, affecting nearly a third of all solid tumors. Point mutations in the KRAS gene most frequently affect amino acid position 12, resulting in the substitution of the native glycine (G) residue for other amino...
Published: 4/8/2024   |   Inventor(s): Eric Tran, Yong-Chen Lu, Paul Robbins, Steven Rosenberg, Anna Pasetto, Zhili Zheng
Keywords(s): CANCER, Immunotherapy, Mutated KRAS, Rosenberg, T-cell Receptors
Category(s): Collaboration Sought > Collaboration, Collaboration Sought > Licensing, TherapeuticArea > Oncology, Application > Therapeutics
T Cell Receptors Targeting BRAF V600E Mutation for Cancer Immunotherapy
Abstract: BRAF is an oncogene that encodinges a serine-threonine kinase (B-Raf kinase) important in regulating cell growth and differentiation. Spontaneous mutations in the BRAF gene allow cells to continuously divide, leading to the development of cancer. A substitution of glutamic acid for valine at amino acid number 600 (designated V600E) accounts...
Published: 8/14/2024   |   Inventor(s): Zhiya Yu, Catherine Ade, Matthew Sporn, James Yang, Kenichi Hanada
Keywords(s): BRAF, B-Raf kinase, B-Raf Proto-Oncogene, HLA-A*0301 restriction, Immunotherapy, Rosenberg, serine-threonine kinase, T Cell Receptor, T cell therapy, TCR, V600E mutation, Yang, Yu
Category(s): Application > Therapeutics, Collaboration Sought > Collaboration, TherapeuticArea > Oncology, Collaboration Sought > Licensing
T-Cell Therapy Against Patient-Specific Cancer Mutations
Abstract: Human cancers contain genetic mutations that are unique to each patient. Some of the mutated peptides are immunogenic, can be recognized by T cells, and therefore, may serve as therapeutic targets. Scientists at the National Cancer Institute's Surgery Branch developed a method to identify T cells that specifically recognize immunogenic mutations...
Published: 4/8/2024   |   Inventor(s): Eric Tran, Yong-Chen Lu, Paul Robbins, Steven Rosenberg
Keywords(s): Cholangiocarcinoma, Immunogenic, Rosenberg, T-cell, Tran
Category(s): Collaboration Sought > Collaboration, Collaboration Sought > Licensing, Application > Therapeutics, TherapeuticArea > Oncology
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