Antibodies specifically bind only to a cancer specific proliferating cell nuclear antigen (csPCNA) isoform and not to the non-malignant proliferating cell nuclear antigen (nmPCNA) isoform. Methods and compositions to detect the presence of csPCNA isoform are disclosed.

According to the invention, gene products expressed in a tumor-associated manner and the nucleic acids coding therefor were identified. The invention relates to the therapy and diagnosis of diseases wherein said gene products expressed in a tumor-associated manner are aberrantly expressed. The invention also relates to proteins, polypeptides and peptides which are expressed in a tumor associated manner and to nucleic acids coding therefor.

Described herein are substituted indazoles that may selectively bind to Hsp90, methods of using the compounds, and kits including the compounds. The compounds may include detection moieties such as fluorophores that may allow for selective detection of Hsp90 in a sample. Suitable compounds include those of formula (II): ##STR00001##

Provided herein are methods and kits for evaluating potential for invasiveness, metastasis, or recurrence of an epithelial cell cancer. In the methods the expression profile of giant obscurins is detected in a tissue sample of tumor cells or suspected tumor cells and assessed for giant obscuring expression level and distribution therein. Decreased levels or altered distribution of giant obscurins in the cells compared to a control non-invasive standard or to a sample taken at a different point in time is indicative of increased potential of at least one of the invasiveness, metastasis, or recurrence of the epithelial cell cancer. The kit comprises a detection reagent suitable for detecting the presence and distribution of giant obscurins or an amount of the gene product(s) encoding giant obscurins in cells of a tissue sample and instructions for using the detection reagent.

The present invention relates inter alia to methods for determining whether a subject with squamous cell carcinoma (SCC) has an increased risk of metastasis. The invention further relates to methods of treating such subjects, diagnostic assays and kits. In certain embodiments, the invention relates to identifying whether a subject suffering from SCC has an increased risk of metastasis by determining the expression of Ambra-1 and p62 in a SCC tissue sample obtained from the subject.

A cancer vaccine composition for human leukocyte antigen (HLA)-A*0206-positive persons, comprising a protein product of the tumor suppressor gene WT1 or a partial peptide thereof.

The present disclosure provides systems and methods for the highly sensitive and effective treatment and diagnosis of cancer. The methods disclosed herein take advantage of the discovery of a series of newly identified, inter-chromosomal genetic fusion events that occur upstream from the IGF2BP3 gene, which result in elevated expression of IGF2BP3 protein. The present disclosure utilizes biomarkers developed using this set of newly discovered genetic fusion events and elevated expression of IGF2BP3 protein to not only diagnosis cancer with high sensitivity and reliability, but also to pre-select patient populations that are expected to display an elevated likelihood of success when treated with any of numerous inhibitors of IGF1R-mediated signaling.

The present invention provides a novel approach to cancer diagnosis and therapy of cancer by providing compositions and methods for the identification and specific targeting of the cancer stem cell populations present in a tumour to eradicate, or slow or prevent tumour (5) growth and spread, including the potential for tumour metastasis, by modulation of the Renin-Angiotensin System including, but not limited to, Renin Receptor, Angiotensin II Receptor (2) and a secreted form of the Renin Receptor.

The present disclosure relates to methods for screening test samples or substances that are capable of inducing or reducing nucleolar hypertrophy in cancer cells. The present disclosure further provides methods of contacting isolated cancer cells with a test sample or a substance that can induce nucleolar hypertrophy in a cancer cell. The present disclosure further provides methods for contacting an isolated cancer cell characterized by nucleolar hypertrophy with a test sample or substance that can reduce the nucleolar hypertrophy. One benefit to the method of screening disclosed herein can be the identification of test samples or substances capable of reducing nucleolar hypertrophy. Another benefit to the method of screening disclosed herein can be the identification of those combinations of test samples, substances, or combinations or series thereof, which are suitable or optimal for treating specific cancers in patients.

This invention relates to methods of treating cancer in a subject such as a human and determining at least one of the following in a sample from the subject, such as a human: (a) the presence or absence of a mutation at the alanine 677 (A677) residue in EZH2; or (b) the presence or absence of a mutation at the tyrosine 641 (Y641) residue in EZH2; or (c) the presence or absence of an increased level of H3K27me3 as compared to a control, and administering to said human an effective amount of an EZH2 inhibitor or a pharmaceutically acceptable salt thereof if at least one of the A677 mutation, Y641 mutation, or increased level of H3K27me3 is present in the sample.