This document provides methods and materials involved in identifying mammals having lung adenocarcinoma characterized by neuroendocrine differentiation as well as methods and materials involved in treating mammals having lung adenocarcinoma characterized by neuroendocrine differentiation. For example, methods and materials for using ASCL1 and RET expression levels to identify lung cancer patients having lung adenocarcinoma characterized by neuroendocrine differentiation are provided.

In certain embodiments, this application discloses methods for detecting lung cancer. The method includes characterization of cells extracted from human sputum, which is a valuable tissue surrogate and source of upper respiratory cells that become cancerous early in 5 the process of lung cancer development. The method includes the staining of extracted cells with fluorescent reporters that produce a specific pattern in the nuclei of labeled cells, which can be made visible by light microscopy. The pattern is relevant to a type of epigenetic coding of DNA known as DNA methylation, which changes in specific cells of the lung during cancer development, in comparison to normal respiratory cells.

The invention relates to a method of detecting the presence of cancer in a subject based on a panel of biomarkers comprising Hexanal, Heptanal, Octanal, Decanal, Benzaldehyde, Phenylacetaldehyde, Undecane and Benzoic acid in exhaled breath obtained from a subject. The disclosure also teaches a method of detecting tuberculosis and to distinguish the detection of tuberculosis from cancer or to distinguish the detection of cancer from tuberculosis.

The disclosure provides methods for treating lung cancer (e.g., non-small cell lung cancer) with an anti-PD-L1 antibody in a patient identified using a polynucleotide or polypeptide marker of the disclosure: CXCL9, KRT8, TRIM29, and/or IFNgamma.

The present invention relates to the sialyltransferase ST3GAL6 for use as a biomarker for multiple myeloma, and especially as a marker for myelomas with inferior survival rates. The inventors have shown that glycosylation gene expression is dysregulated in Multiple Myeloma and that overexpression of the sialyltransferase ST3GAL6 is associated with inferior survival rates in patients.

The present application relates to anti-LOX and anti-LOXL2 antibodies and their use in purification, diagnostic and therapeutic methods. Antibodies include monoclonal antibodies, humanized antibodies and functional fragments thereof. Anti-LOX and anti-LXL2 antibodies can be used to identify and treat conditions such as a fibrotic condition, angiogenesis, or to prevent a transition from an epithelial cell state to a mesenchymal cell state.

The disclosure provides a method for determining if a subject afflicted with cancer is a candidate for Programmed Death Ligand-1 (PD-L1) targeted immunotherapy, which method comprises (a) providing a liquid biopsy sample obtained from the subject afflicted with cancer; (b) detecting CTCs in the liquid biopsy sample; (c) calculating what proportion of CTCs in the liquid biopsy express PD-L1; and (c) identifying the subject as a candidate for PD-L1 targeted immunotherapy based on an assessment that the proportion of the CTCs in the liquid biopsy that express PD-L1 exceeds a pre-determined threshold level.

Isolated or recombinant EphA5 or GRP78 targeting antibodies are provided. In some cases, antibodies of the embodiments can be used for the detection, diagnosis and/or therapeutic treatment of human diseases, such as cancer. A method of rapidly identifying antibodies or antibody fragments for the treatment of cancer using a combination of in vitro and in vivo methodologies is also provided.

Circulating tumor cells (CTCs) are associated with metastasis of malignant solid tumors in a patient. Presented here is evidence that CTCs exhibit cell cycle phase variability and that there is a strong correlation between the number of CTCs in a mitotic cell cycle phase and the prospects for long term survival of the subject from which the cells were obtained. Also presented herein are methods of determining the mitotic cell cycle phase of CTCs from a patient having cancer and using the information in grading malignant solid tumors and predicting the likelihood of survival of the patient.

Provided is an antibody that recognizes and binds to carbonic anhydrase or antigen-binding fragment, a nucleic acid molecule coding for the antibody or antigen-binding fragment, a vector carrying the nucleic acid molecule, a host cell including the nucleic acid molecule or the vector, and use of the antibody or antigen-binding fragment thereof in the alleviation, prevention, treatment or diagnosis of solid cancers.