Methods are provided for treating a subject having a MYC-driven neoplasia. Aspects of the methods include administering to the subject an amount of an inhibitor of a target gene effective to treat the subject for the MYC-driven neoplasia. Methods are also provided for identifying a MYC-dependent target gene in a MYC-driven neoplasia. Aspects of the method include identifying the MYC-dependent target gene based on a phenotype detected in a first tumor cell line conditionally expressing MYC that is absent or quantitatively different in a second tumor cell line conditionally repressing MYC when the two cell lines are contacted with a CRISPR-based gene silencing agent. Kits and cell lines for practicing the methods of the disclosure are also provided.

The present invention relates to peptides, proteins, nucleic acids and cells for use in immunotherapeutic methods. In particular, the present invention relates to the immunotherapy of cancer. The present invention furthermore relates to tumor-associated T-cell peptide epitopes, alone or in combination with other tumor-associated peptides that can for example serve as active pharmaceutical ingredients of vaccine compositions that stimulate anti-tumor immune responses, or to stimulate T cells ex vivo and transfer into patients. Peptides bound to molecules of the major histocompatibility complex (MHC), or peptides as such, can also be targets of antibodies, soluble T-cell receptors, and other binding molecules.

The present invention provides compositions and methods for treating cancer with peptide nucleic acid agents. In some embodiments, the present invention provides methods and compositions relating to peptide nucleic acid agents that target oncogenes. For example, the present invention provides compositions, including pharmaceutical compositions, comprising agents specific for BRAF V600E inhibition, or fragments or characteristic portions thereof. The present invention further provides various therapeutic and/or diagnostic methods of using BRAF V600E specific peptide nucleic acid agents and/or compositions.

The purpose of the present invention is to provide a method for predicting the effectiveness of an angiogenesis inhibitor in a subject suffering from a tumor. Provided is a method comprising a step of testing for the presence or absence of an a mutation or loss of expression of B-Raf and PTEN in a sample of tumor tissue from the subject. By using the presence or absence of or a mutation or loss of expression of B-Raf and PTEN as an indicator, this method enables the antitumor effectiveness of the angiogenesis inhibitor to be predicted without administering the angiogenesis inhibitor to the subject.

It is an object of the present invention to provide, for instance, a method for evaluating a function, such as transforming potential, of multiple different genes of interest, and a method capable of evaluating drug sensitivity of a subject having each gene of interest. The present invention relates to, for instance, a method for evaluating multiple different genes of interest, comprising the steps of: integrating, into host cell genomic DNA, polynucleotides each comprising a tag sequence and a gene of interest or a fragment thereof linked to the tag sequence; mixing a plurality of different host cells having the different polynucleotides integrated therein; culturing the mixed host cells; extracting the genomic DNA from the cultured host cells; quantifying each of the polynucleotides in the extracted genomic DNA based on the tag sequence; and determining a relative cell count of each of the host cells having the respective polynucleotides after the culturing, based on the quantified values for the polynucleotides.

The invention provides methods for determining tumour status in a subject comprising the steps of: (i) determining a quantitative value in a sample taken from a subject of a first biomarker selected from the group consisting of Ran, Ran binding protein 1, an active fragment of a Ran protein, a nucleic acid sequence encoding Ran, a nucleic acid sequence encoding Ran binding protein 1, a nucleic acid sequence encoding an active fragment of Ran and a nucleic acid sequence encoding an active fragment of Ran binding protein 1; (ii) comparing the quantitative value of the first biomarker in the sample with a selected pre-determined threshold value of the first biomarker; (iii) determining a quantitative value in a sample from the same subject of a second biomarker selected from the group consisting of MMP2, an active fragment of MMP2, a nucleic acid sequence encoding MMP2 and a nucleic acid sequence encoding an active fragment of MMP2; (iv) comparing the quantitative value of the second biomarker in the sample with a selected pre-determined threshold value of the second biomarker; wherein the quantitative values of the first marker and the second biomarkers in the sample as compared to their respective selected pre-determined threshold values indicate whether or not the tumour sample has invasive and/or metastatic potential.

Complexes containing a labeled polypeptide and an antibody, and the use of such complexes as research, diagnostic, and clinical tools, are described herein.

An object of the present invention is to provide a method for predicting a risk of developing cancer. DNA samples were prepared from blood and cancer tissues of 2480 cancer patients and analyzed for the nucleotide sequences of exon regions using NGS. As a result, among the cancer patients, 7 patients were confirmed to have D49H mutation or A159D mutation which is a germ cell mutation.

Isolated monoclonal antibodies which bind to human c-Met, the hepatocyte growth factor receptor, and related antibody-based compositions and molecules, are disclosed. Pharmaceutical compositions comprising the antibodies and therapeutic and diagnostic methods for using the antibodies are also disclosed.

Truncation variants of BCR-ABL mRNA that produces BCR-ABL proteins with a truncated C-terminus and its role in resistance to treatment with kinase inhibitors is described. Vectors for expressing the truncated gene products are described as well as recombinant cells that express the truncated gene products from cDNA constructs. Also provided are methods compositions and kits for detecting the BCR-ABL truncation variants. Also provided are methods for determining the prognosis of a patient diagnosed as having myeloproliferative disease, and methods for predicting the likelihood for resistance to a treatment with tyrosine kinase inhibitor in a patient diagnosed as having myeloproliferative disease. Additionally, methods for screening BCR-ABL tyrosine kinase domain inhibitors which rely on the recombinant cells are also disclosed.