Abstract: This invention relates generally to compositions and methods for identifying genes and gene networks that respond to, modulate, control or otherwise influence tumors and tissues, including cells and cell types of the tumors and tissues, and malignant, microenvironmental, or immunologic states of the tumor cells and tissues. The invention also relates to methods of diagnosing, prognosing and/or staging of tumors, tissues and cells, and provides compositions and methods of modulating expression of genes and gene networks of tumors, tissues and cells, as well as methods of identifying, designing and selecting appropriate treatment regimens. The invention also relates to the modulation of complement activity to shift cellular immunity and obtain an effective therapeutic response.

Abstract: The invention provides methods of monitoring differential gene expression of biomarkers to determine patient sensitivity to Cyclin Dependent kinase inhibitors (CDKi), methods of determining the sensitivity of a cell to a CDKi, methods of treating a patient with a CDKi and methods of screening for candidate CDKi.

Abstract: Nucleic acids and proteins having a mutant MEK sequence, and methods concerning identification of patients having resistance to treatment with anti-cancer agents, specifically inhibitors of RAF or MEK are provided. Methods of treatment and for optimizing treatment for patients having a mutation in a MEK1 sequence are also provided.

Abstract: A method of identifying a subject having cancer who is likely to benefit from treatment with a combination therapy with a RAF inhibitor and a second inhibitor is provided. A method of treating cancer in a subject in need thereof is also provided and includes administering to the subject an effective amount of a RAF inhibitor and an effective amount of a second inhibitor, wherein the second inhibitor is a MEK inhibitor, a CRAF inhibitor, a CrkL inhibitor or a TPL2/COT inhibitor. A method of identifying a kinase target that confers resistance to a first inhibitor is also provided.

Abstract: Isolated mutant ERK polypeptides and nucleic acids encoding the mutant ERK polypeptides are provided. Methods of screening cancer-containing samples for an ERK polypeptide mutation that confers resistance to treatment with a first MAPK pathway inhibitor are provided. Methods of optimizing treatment of a subject having cancer and methods of identifying compounds useful in treating cancer are also provided.

Abstract: Nucleic acids and proteins having a mutant C-RAF sequence, and methods of identifying patients having cancer who are likely to benefit from a combination therapy and methods of treatment are provided.

Abstract: Nucleic acids and proteins having a mutant C-RAF sequence, and methods of identifying patients having cancer who are likely to benefit from a combination therapy and methods of treatment are provided.

Abstract: The present invention is based on the identification of novel biomarkers predictive of responsiveness to anti-immune checkpoint inhibitor therapies.

Abstract: Nucleic acids and proteins having a mutant MEK sequence, and methods concerning identification of patients having resistance to treatment with anti-cancer agents, specifically inhibitors of RAF or MEK are provided. Methods of treatment and for optimizing treatment for patients having a mutation in a MEK1 sequence are also provided.

Abstract: The present invention provides methods related to the treatment of head and neck squamous cell carcinoma (HNSCC) and its associated premalignant lesions. In particular, the invention features methods which may specifically target HNSCC-associated genes and alter gene expression to treat or alleviate a symptom of HNSCC, or its related premalignant lesions. These methods may involve decreasing the function of an HNSCC-associated gene with aberrant gain-of-function; or increasing the function of an HNSCC-associated gene with aberrant loss-of-function.

Abstract: The present invention relates to methods, compositions and kits concerning resistance to treatment with an anti-cancer agent, specifically an inhibitor of BRAF. In particular embodiments, the invention concerns mutations in a BRAF sequence that confer resistance to a BRAF inhibitor. Identification of such mutations in a BRAF sequence allows the identification and design of second-generation BRAF inhibitors. Methods and kits for detecting the presence of a mutant BRAF sequence in a sample are also provided.

Abstract: The invention provides methods and devices for determining molecular signatures in a cancer that predict response to a MARPK pathway inhibitor and methods of use of such signatures.

Abstract: The invention provides methods of detecting a NSD2 mutation in a cancer cell, methods cancer diagnosis and methods of screening for NSD2 inhibitors.

Abstract: The present invention relates to methods, compositions and kits concerning resistance to treatment with an anti-cancer agent, specifically an inhibitor of MEK. In particular embodiments, the invention concerns mutations in a MEK sequence that confer resistance to a MEK inhibitor. Identification of such mutations in a MEK sequence allows the identification and design of second-generation MEK inhibitors. Methods and kits for detecting the presence of a mutant MEK sequence in a sample are also provided.

Abstract: The invention provides methods of monitoring differential gene expression of biomarkers to determine patient sensitivity to Cyclin Dependent kinase inhibitors (CDKi), methods of determining the sensitivity of a cell to a CDKi, methods of treating a patient with a CDKi and methods of screening for candidate CDKi.

Abstract: The present invention relates to methods, compositions and kits concerning resistance to treatment with an anti-cancer agent, specifically an inhibitor of MEK. In particular embodiments, the invention concerns mutations in a MEK sequence that confer resistance to a MEK inhibitor. Identification of such mutations in a MEK sequence allows the identification and design of second-generation MEK inhibitors. Methods and kits for detecting the presence of a mutant MEK sequence in a sample are also provided.

Abstract: A method of identifying a subject having cancer who is likely to benefit from treatment with a combination therapy with a MAPK pathway inhibitor, such as a RAF inhibitor, MEK inhibitor, or ERK inhibitor, and a GEF or HDAC inhibitor is provided. A method of treating cancer in a subject in need thereof is also provided and includes administering to the subject an effective amount of a MAPK inhibitor, such as a RAF inhibitor, MEK inhibitor, or ERK inhibitor, and an effective amount of a GEF or HDAC inhibitor. A method of identifying targets that confers resistance to a MAPK pathway inhibitor is also provided.

Abstract: Nucleic acids and proteins having a mutant C-RAF sequence, and methods of identifying patients having cancer who are likely to benefit from a combination therapy and methods of treatment are provided.

Abstract: The present invention relates to methods, compositions and kits concerning resistance to treatment with an anti-cancer agent, specifically an inhibitor of BRAF. In particular embodiments, the invention concerns mutations in a BRAF sequence that confer resistance to a BRAF inhibitor. Identification of such mutations in a BRAF sequence allows the identification and design of second-generation BRAF inhibitors. Methods and kits for detecting the presence of a mutant BRAF sequence in a sample are also provided.

Abstract: The present invention relates to methods, compositions and kits concerning resistance to treatment with an anti-cancer agent, specifically an inhibitor of BRAF. In particular embodiments, the invention concerns mutations in a BRAF sequence that confer resistance to a BRAF inhibitor. Identification of such mutations in a BRAF sequence allows the identification and design of second-generation BRAF inhibitors. Methods and kits for detecting the presence of a mutant BRAF sequence in a sample are also provided.