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.

Abstract: The present invention provides novel compositions and methods based on the discovery of the mechanisms and gene expression programs associated with synovial sarcoma. In particular, core oncogenic programs were expressed by a distinct subpopulation of malignant cells and associated with poor clinical outcome, a cell cycle program distinguished cycling from non-cycling cells, with cycling cells having a tendency to be poorly differentiated and indicative of increased risk of metastatic disease, and a (de)differentiation program that can identify poorly differentiated cells, the absence of which was prognostic of metastasis free survival. Methods of treatment include use of HDAC and CDK4/6 inhibitors to block oncogenic program to selectively target synovial sarcoma cells. Finally, macrophages and T cells can mimic the effect of SS18-SSX inhibition by secreting TNFa and IFNg, which allows for adoptive cell therapy to provide cells with increased expression of TNFa and IFNg.

Abstract: Provided are methods and compositions for treating cancer in a subject in need thereof. One of the top gene products in glioblastoma multiforme (GBM) is KLRB1 (also known as CD161), a C-type lectin protein that binds to CLEC2D. Binding of CLEC2D to the KLRB1 receptor inhibits the cytotoxic function of NK cells as well as cytokine secretion. KLRB1 is only expressed by small subpopulations of human blood T cells, and consequently little is known about the function of this receptor in T cells. However, preliminary data demonstrate that KLRB1 expression is induced in T cells within the GBM microenvironment. In an exemplary embodiment, a method is provided comprising administering an agent capable of blocking the interaction of KLRB1 with its ligand. The agent may comprise an antibody or fragment thereof, which may bind KLRB1 or CLEC2D.

Abstract: The subject matter disclosed herein is generally directed to compositions and methods for treating diffuse gliomas with histone H3 lysine27-to-methionine mutations (H3K27M-gliomas). Disclosed herein are gene signatures specific for tumor cell types and compositions for treatment of H3K27M gliomas. In one embodiment, PRC1 is targeted in a treatment regimen for H3K27M-gliomas.

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.