The present application discloses an antibody or antigen-binding fragment thereof that binds specifically to a BAG2 polypeptide or fragment thereof, and a method of treating cancer thereof.

Provided herein are antibodies that specifically bind LRP5 and method of use thereof.

The present disclosure provides methods of diagnosing, preventing, monitoring, and treating brain tumors. In particular, the present disclosure provides methods of using brain tum or biomarkers in exosomes for diagnosing, preventing, monitoring, and treating brain tumors.

The current disclosure provides for novel therapeutic methods by identifying cancer patient populations that may be treated effectively by immunotherapies. Accordingly, aspects of the disclosure relate to a method of treating cancer in a subject comprising administering to the subject immune checkpoint blockade (ICB) therapy after the subject has been determined to have increased expression of CXCL13 in a biological sample from the subject.

Methods for treating B cell lymphomas are provided. B cell lymphomas patients suitable for treatments can be identified based on the baseline B cell subset frequencies. For instance, increased frequency of transitional (CD10+) B cells within total nave B cells or within total B cells predicts poor response to kinase inhibitors. By contrast, having an increased nave B cells to total B cells frequency without an increased transitional (CD10+) B cell frequency predicts good response to the kinase inhibitors. Having a decreased frequency of nave B cells of the total B cell population with a corresponding increase in frequency of memory switched and double negative B cells of the total B cell population also predicts good response to the kinase inhibitors. Once the patients are identified, the patients can be suitably treated with the kinase inhibitors such as cerdulatinib.

Described herein are methods such as multi-omic methods for assessing a disease such as cancer. The multi-omic methods may integrate proteomic, transcriptomic, genomic, lipidomic, or metabolomic data. The method screening diseases or disease states. Also described herein are methods for screening for diseases or disease states from biological samples. The methods may include assessing whether a nodule, mass, or cyst is cancerous.

The present inventors have surprisingly found that a deoxyhypusine synthase (DHPS) gene, which was previously reported to correlate with prostate cancer and cervical cancer, is highly responsive to arteriosclerosis or digestive system cancer, whereby the gene can be used as a desired marker for arteriosclerosis or digestive system cancer. The present invention has been accomplished on the basis of this finding. Specifically, the present invention provides a method for determining arteriosclerosis or digestive system cancer, which method includes detecting expression of a deoxyhypusine synthase gene in a test sample (preferably a blood sample), and determining arteriosclerosis or digestive system cancer of a test subject from which the test sample has been obtained, on the basis of an increase in the gene expression as an index.

The present disclosure relates to antibody molecules that bind specifically to C-MET and related nucleic acid molecules, vectors and host cells. Also provided are medical uses of such antibody molecules. The claimed anti C-Met antibodies of the present application have been selected by in silico engineering. Some of the antibodies have been generated and further characterized after expression in mammalian expression system.

Disclosed herein are methods of increasing the expression rate of epigenetic markers such as ELOVL2, KLF14, and PENK with administration of a therapeutic agent (e.g., vitamin C or its derivatives, analogs, metabolites, prodrugs, or pharmaceutically acceptable salts thereof). Also described herein are methods of modulating the methylation pattern of epigenetic markers such as ELOVL2, KLF14, and PENK with administration of a therapeutic agent (e.g., vitamin C or its derivatives, analogs, metabolites, prodrugs, or pharmaceutically acceptable salts thereof).

An aspect of the invention provides a method of selectively necrosing cells, comprising: providing a plurality cells, including at least one cancer cell and at least one non-cancerous cell; and administering to the cells a compound, including an HDM-2 targeting component and a cytotoxic component attached to the HDM-2 targeting component, wherein said compound comprises a membrane-active form.