Provided are methods for screening a subject for cancer. The methods involve obtaining a blood sample from the subject and determining a level of Bridging Integrator 1 (BIN1) isoforms comprising exon 12a in the sample. Optionally, the method involves determining a level of 12a+/13− BIN isoform (comprising exon 12a but lacking exon 13) in the sample. An elevated level of 12a+ (e.g., 12a+/13−) BIN1 isoforms in the blood sample indicates the subject has cancer. Also provided are methods for determining efficacy of a cancer therapy in a subject and methods of treating cancer. Isolated antibodies that selectively bind human 12a+ BIN1 are also provided as well as kits for determining 12a+/13− BIN1 isoforms.

The present disclosure generally relates to methods and compositions for identifying and/or treating cancer patients harboring one or more molecular alterations in clinically important biomarkers, preferably in multiplexed assays, such that multiple biomarkers can be assayed simultaneously. In one embodiment, the disclosure relates to methods for rapid screening large populations of biological samples by using a high-throughput multiplexed assay to assess relative prevalence of multiple indications, optionally followed by a second analytical assay with higher sensitivity and specificity.

In various embodiments the invention provides anti-mucin-like protein (MLP) monoclonal antibodies, compositions and methods for detecting MLP as a biomarker for mucin-secreting type of cancer such as ovarian or pancreatic cancer.

The present invention relates to the identification of biological markers of ovarian cancer. Specifically, cancer-associated autoantibodies to ANXA1, ARP3, SAHH, SERPH, ARAP1, OTUB1, ATP1A1, UBA1, and CFAH have been identified in subjects with early stage ovarian cancer. These autoantibodies can be utilised for a range of purposes including methods for detecting ovarian cancer, methods for screening for early stage ovarian cancer, and methods for assessing treatment response as well as disease progression and recurrence. The autoantibodies also represent prognostic markers of ovarian cancer development.

The invention includes the use of the HE/HE4a markers to assess ovarian cancer in a subject. Included also are compositions and methods of using HE/HE4a marker for diagnosis, grading and staging of ovarian cancers, determining prognosis and treatment effectiveness of a subject who has been diagnosed with ovarian cancer.

Efficient harvesting of cells, cell fragments, free nuclei, and DNA material from female reproductive system is made possible by processing gelatinous part of cervical mucus. Rinsing may be used to separate the gelatinous part of cervical mucus from the remainder of the cervical mucus sample.

The current disclosure relates to methods for treating ovarian cancer based on specific antigen expression of the cancer. Furthermore, the expressed antigen may be used in immunotherapeutic methods for treatment of the ovarian cancer. Aspects of the disclosure relate to immunotherapies targeting CT45 polypeptides, methods for treating ovarian cancer based on CT45 expression, and kits for detecting CT45 polypeptides and nucleotides.

Polypeptide marker antigens for detecting the presence of autoantibody biomarkers associated with ovarian cancer recurrence, each of the polypeptide marker antigens binding specifically to at least one autoantibody marker. An antibody binding assay for detecting the presence of autoantibody biomarkers associated with ovarian cancer recurrence, and methods for performing the assay. Methods for determining ovarian cancer recurrence in an ovarian cancer patient. A method for isolating antibodies specific for ovarian cancer by their affinity to the polypeptide marker antigens, and antibodies isolated by that method.

The present invention provides a protein-based biomarker that is useful in qualifying ovarian cancer status in a patient. In particular, the biomarker of this invention is useful to classify a subject sample as ovarian cancer or non-ovarian cancer. The biomarker can be detected by SELDI mass spectrometry.

The present invention generally relates to methods, assays, compositions and kits related to a subpopulation of ovarian cancer stem cells which are selected or enriched by chemotherapeutic agents and inhibited by MIS (Mullerian Inhibiting Substance) and MIS mimetics. In particular, the present invention relates to a population of CD44+/CD24+/EpCam+/ECad− subpopulation of ovarian cancer stem cells. The present invention also provides methods to screen a subject with ovarian cancer to identify if they have an ovarian cancer comprising CD44+/CD24+/EpCam+/ECad− ovarian cancer stem cells, and methods to identify and enrich or isolate for such ovarian cancer cell populations.