There are no reliable clinical bio-markers of survival prognosis, patient's risk stratification and treatment prediction for epithelial ovarian cancers(EOC). The most common type of the human EOC is a high grade serous EOC. This cancer is characterized with one of the lowest survival rates compared to other cancers. The present invention relates to an method for a prognosis of survival of a subject diagnosed with EOC, the method comprising determining in a sample of the subject gene expression level of at least one gene in the list of Evi1 pathway genes; and/or copy number of at least one gene in the MECOM locus; wherein the level against at least one expression threshold value will define the risk group of the subject and/or a risk of the disease progression after surgery treatment, and/or an effectiveness of post-surgery chemotherapy. The quantification method of Evi1/MECOM locus regulatory pathway provides a set of multigene prognostic signatures representing EVI1 pathway modules, which collectively provided a framwork of high-confidence, sensitive and specific prognosis assay(s) of EOC and stratification method for the EOC patient stratification according to disease relapse.

An antigen targeting agent is provided. The antigen targeting agent binds to a mutated Kirsten rat sarcoma viral oncogene homolog (KRAS) protein having a missense mutation at position 12 when a peptide incorporating the missense mutation is presented by an HLA-A*02 molecule. The missense mutation at position 12 of the KRAS protein may be G12D, G12V or G12C. The antigen targeting agents can be used diagnostically or for immunotherapy.

Disclosed is an isolated or purified T cell receptor (TCR) having antigenic specificity for an HLA-A11-restricted epitope of mutated Kirsten rat sarcoma viral oncogene homolog (KRAS) (KRAS.sub.7-16), Neuroblastoma RAS Viral (V-Ras) Oncogene Homolog (NRAS), or Harvey Rat Sarcoma Viral Oncogene Homolog (HRAS). Related polypeptides and proteins, as well as related nucleic acids, recombinant expression vectors, host cells, populations of cells, and pharmaceutical compositions are also provided. Also disclosed are methods of detecting the presence of cancer in a mammal and methods of treating or preventing cancer in a mammal.

Disclosed are compounds, for example, a compound of formula I, ##STR00001##
wherein R, R.sub.0, R.sub.1-R.sub.8, n, X, Y, Y′, and E are as described herein, pharmaceutical compositions containing such compounds, and methods of treating or preventing a disease or condition for example, cancer, mediated by the ras gene.

The present disclosure is directed to a method for selecting a patient with cancer for treatment with a compound of formula (I) by determining if the patient's cancer cells are MYC-positive and when the MYC promoter sequence in those cancer cells contains a nucleic acid sequence capable of forming a MYC G-quadruplex (MYC G4) (i.e. are MYC G4-positive) and treating the patient with a compound of formula (I).

The invention provides to RAF1 gene fusions, RAF1 fusion proteins, and fragments of those genes and polypeptides. The invention further provides methods of diagnosing and treating diseases or disorders associated with RAF1 fusions, such as conditions mediated by aberrant RAF1 expression or activity, or overexpression of RAF1.

The present application provides stable peptide-based Akt capture agents and methods of use as detection and diagnosis agents and in the treatment of diseases and disorders. The application further provides methods of manufacturing 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 anticancer 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.

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.

Methods for targeting a tumor antigen for immunotherapy based on HLA allele type and the mutations present in the tumor antigen are presented. A patient's HLA allele type and a tumor antigen derived from a mutation in cancer driver gene can be matched with a majority allele type having a minimum affinity to the same tumor antigen or with those of a plurality of patients with a history of cancer treatment. Upon matching, a cancer treatment against the tumor antigen can be selected and administered to the patient to achieve a desired effect.