The present disclosure relates to methods for generating blood protein profiles from whole blood, red blood cell enriched blood samples, or red blood cell components. The methods involve the comparison of protein levels before and after incubation with protease inhibitors, or the comparison of protein levels after incubation in the presence and absence of protease inhibitors. The protein profiles are used for monitoring and diagnosing diseases and disorders in subjects including colorectal cancer and preeclampsia.

The present invention relates in part to the discovery of genes that are deregulated in cancer stem cells (e.g., melanoma stem cells). In some aspects, methods for treating individuals having melanoma are provided; the methods involve modulating (e.g., inducing, inhibiting, etc.) the activity of the cancer stem cell associated genes. In other aspects, cell surface genes that are upregulated in melanoma stem cells are targeted for the selective isolation, detection, and killing of cancer stem cells in melanoma. Other aspects of the invention relate to reagents, arrays, compositions, and kits that are useful for diagnosing and treating melanoma.

A method for monitoring a patient's response to anti-Clever-1 therapy and estimating the need for combination therapy based on the expression levels of one or more cell surface marker selected from PD-1, PD-L1, CTLA-4, ICOS, OX40, 41BB, LAG3, TIM3, CD28, CD25 and CXCR3 on leucocytes in relation to anti-Clever-1 treatment and choosing the best combination agent to initiate treatment together with anti-Clever-1 therapy after observed changes in one or more cell surface marker expression.

This document relates to methods and materials for detecting premalignant and malignant neoplasms. For example, methods and materials for determining whether or not a stool sample from a mammal contains nucleic acid markers or polypeptide markers of a neoplasm are provided.

The disclosure provides novel personalized therapies, kits, transmittable forms of information and methods for use in treating patients having cancer, wherein the cancer is amenable to therapeutic treatment with an inhibitor, e.g., an inhibitor of any of the targets disclosed herein. Kits, methods of screening for candidate inhibitors, and associated methods of treatment are also provided.

An object of the present invention is to provide an anticancer drug capable of treating cancer by finding a target molecule specifically expressed in cancer cells and by specifically acting on the target molecule, and to provide a cancer testing method including a step of measuring the target molecule in a sample. The present invention provides an anticancer drug containing, as an active ingredient thereof, an anti-transmembrane protein 180 (TMEM-180) antibody or an antigen-binding fragment thereof. In addition, the present invention provides a cancer testing method including a step of measuring the amount of TMEM-180 in a sample collected from a subject.

There is provided a method of estimating a circulating tumour DNA (ctDNA) burden/level in a subject, the method comprising: determining in a blood sample obtained from the subject, a level of cell-free DNA (cfDNA) that maps to one or more nucleosome-depleted region (NDR); and estimating the ctDNA burden based on said level of cfDNA, wherein said NDR (i) comprises the NDR of a gene which transcript is differentially expressed between healthy blood tissue and tumour tissue and/or (ii) is degraded to different extents between healthy blood tissue and blood tissue of a tumour-bearing subject. Also provided are related kits and methods, in one embodiment, the one or more NDR comprises one or more NDR of SLC11A1, NLRP12, PRTN3, HMBS, LILRB3, ACSL1, GP9, MX2, RASGRP4, ATG18L2, SHKBP1, BCAR1, RAB25 and LSR.

The invention relates to a method for identifying a cancer that is predicted to respond to treatment with a topoisomerase 1 (TOP1) inhibitor. The invention also extends to a method of treating cancer in a subject and a method of selecting a cancer patient for treatment with a cancer therapy. The invention further extends to use of cancer cells, such as primary colon cancer cells, as a biomarker for a patients response to treatment (insensitivity or sensitivity) with a particular chemotherapeutic agent, such as a TOP1 inhibitor.

This invention provides methods, reagents, and diagnostic and prognostic markers useful for minimally invasive identification, diagnosis, and therapeutic intervention in individuals with colorectal cancers, or individuals who may be susceptible to developing colorectal cancers.

This invention relates to humanized antibodies that selectively bind the 31.1 epitope on the A33 protein differentially expressed in cancers including, lung cancer, ovarian cancer, pancreas cancer, breast cancer, and colon cancer, and diagnostic and therapeutic usages.