The present disclosure provides diagnostic methods useful for predicting a patient's response to alvocidib and guiding a physician decision to administer alvocidib to the patient.

The present invention relates to a method for diagnosis of cancer and for monitoring the progression of cancer and/or the therapeutic efficacy of an anti-cancer treatment in a sample of a subject by detecting oncogenic and cancer related proteins in microvesicles, and to the use of an agent blocking exchange of microvesicles for treating cancer.

The present invention relates to anti-Epidermal Growth Factor Receptor (EGFR) conformational single domain antibodies and uses thereof in particular in the therapeutic and diagnostic field.

Monoclonal antibodies, or antigen-binding fragments thereof, that bind to ERG, and more specifically, to an epitope formed by amino acids 42-66 of ERG3 are disclosed. The monoclonal antibodies can be non-human antibodies (e.g., rabbit or mouse) or humanized monoclonal antibodies having the CDR regions derived from those non-human antibodies. In other embodiments, the monoclonal antibodies are chimeric, having the light and heavy chain variable regions of a non-human ERG antibody. Methods of using the antibodies to detect ERG, or fusion proteins comprising all or part of an ERG polypeptide, such as an ERG polypeptide encoded by a TMPRSS2/ERG, SLC45A3/ERG, or NDRG1/ERG fusion transcript, are also provided, including methods of detecting ERG or ERG fusion events in a clinical setting. The antibodies can also be used to inhibit the activity of ERG or fusion proteins comprising all or part of an ERG polypeptide, such as an ERG polypeptide encoded by a TMPRSS2/ERG, SLC45A3/ERG, or NDRG1/ERG fusion transcript and to treat malignancies associated with overexpression of ERG or an ERG fusion event, such as prostate cancer, Ewing's sarcoma, acute myeloid leukemia, acute T-lymphoblastic leukemia, endothelial cancer, and colon cancer.

Disclosed are compositions and methods to detect proteins associated with Head and Neck Cancer, generally, or more particularly, biomarkers of Head and Neck Squamous Cell Carcinoma (HNSCC). Such markers may be useful to allow individuals susceptible to HNSCC to manage their lifestyle and/or medical treatment to avoid further progression of disease.

The present application provides stable peptide-based Akt capture agents and the use thereof as detection, diagnosis, and treatment agents. The application further provides novel methods of developing stable peptide-based capture agents, including Akt capture agents, using iterative on-bead in situ click chemistry.

The present invention relates to a method for diagnosis of cancer and for monitoring the progression of cancer and/or the therapeutic efficacy of an anti-cancer treatment in a sample of a subject by detecting oncogenic proteins in microvesicles, and to the use of an agent blocking exchange of microvesicles for treating cancer.

Disclosed herein are methods for treating a cancer and a method for sensitizing a cancer to a chemotherapeutic agent. Each method administers an agent that selectively inhibits HDAC1 and HDAC2 to a subject in need thereof. Also disclosed herein are methods for determining if a cancer is sensitive to an agent that selectively inhibits HDAC1 and HDAC2 and methods for monitoring the efficacy of a treatment for a cancer that includes administration of an agent that selectively inhibits HDAC1 and HDAC2.

Monoclonal antibodies that bind glypican-2 (GPC2) with high affinity are described. Immunotoxins and chimeric antigen receptors (CARs) that include the disclosed antibodies or antigen-binding fragments thereof are further described. In some instances, the antibody or antigen-binding fragment is humanized. The disclosed GPC2-specific antibodies and conjugates can be used, for example, for the diagnosis or treatment of GPC2-positive cancers, including neuroblastoma, medulloblastoma and retinoblastoma.

The invention provides a method allowing to determine whether a subject diagnosed with cancer is sensitive or resistant to an anti-cancer treatment, based on the level of cells with RAD51 foci in a sample containing tumor cells isolated from said subject, wherein the subject has not received at 24 hours prior to the isolation of the sample, a chemotherapy selected from the group consisting of AC, FEC, ECF and navelbine/epirubicin, and wherein the sample has not been treated with a method that induces DNA damage before determining the level of cells with RAD51 foci.