The present invention relates to isolated protein sequences that correspond to cell binding peptides, fragments, neo-structures and/or neo-epitopes of a normally occurring serum protein present in human tissue, wherein the peptide, fragment, neo-structure and/or neo-epitope has an immunoregulatory activity and is the result of either an enhanced proteolytic activity and/or conformational changes in a tissue, or a malignant tumor. In the present patent application, a common structure of several of these peptides, fragments, neo-structures and/or neo-epitopes, having immunoregulatory activity by binding to receptors on immune cells, has been identified. The present invention further also relates to monoclonal and/or polyclonal antibodies directed to a cell binding fragment of a normally occurring serum protein present in human tissue, as described above.

The present invention relates to a metabolic biomarker set for use in assessing breast cancer in a mammalian subject. In particular, the invention relates to a metabolic biomarker set for screening and/or diagnosing breast cancer, the metabolic biomarker set comprising at least (a) one amino acid selected from glutamine, glutamate and serine, and one lipid, or (b) glutamine and glutamate. Further, the invention relates to a metabolic biomarker set for prediction of therapeutic response to breast cancer neoadjuvant chemotherapy. Further, the invention relates to a metabolic biomarker set for assessing biochemical reflection of breast cancer tumor activity. Further, the invention relates to a metabolic biomarker set for subclassification between intrinsic breast cancer tumor subtypes. Moreover, the present invention relates to a method for assessing breast cancer, which comprises obtaining a biological sample, preferably blood, from a mammalian subject and measuring in the biological sample the amount and/or ratios of metabolites. By employing the specific biomarkers and the method according to the present invention it becomes possible to more properly and reliably assess breast cancer.

The instant invention provides for a new method of treating bone metastasis diseases in subjects, wherein said method preferably depends on whether the subject shows certain specific proteins levels in one or more body fluids prior to or during treatment, wherein said treatment comprises the administration of at least one pan αv integrin inhibitor to a subject, a medicament for use in said new methods, and a method of predicting the outcome of a treatment with at least one pan αv integrin inhibitor based on said specific protein levels in one or more body fluids of the subject.

Prognostic and predictive biomarkers are disclosed that can be used in systems and methods for predicting the prognosis of a subject with a cancer and to direct therapy based on that prognosis.

The present disclosure relates to a dissociation reagent for tumor tissues. The dissociation reagent does not contain collagenase or trypsin but further contains hyaluronidase or a mixture of hyaluronidase and DNase I. The present disclosure also relates to use of the dissociation reagent in dispersing tumor tissues and detecting expression level of molecular markers on cell surface by flow cytometry. The dissociation reagent of the present disclosure does not cause degradation of molecular markers on cell surface such as CD8, PD-1, Tim-3, Lag-3 and the like, thus does not affect downstream assays.

Certain embodiments of the invention provide a method of detecting the presence of a biomarker associated with resistance to an mTOR kinase inhibitor in a subject, comprising determining the presence of the biomarker in a physiological sample from the subject, wherein the sample comprises a nucleic acid.

Anti-PD-L1 antibodies are disclosed. Also disclosed are pharmaceutical compositions comprising such antibodies, and uses and methods using the same.

The invention relates to a method for identifying immunoreactive peptides. According to said method, a sample of tumorous and corresponding healthy tissue is first provided, the tumor-specific expression profile is subsequently determined and antigenic peptides are isolated from the tumorous tissue and analyzed. The respective data that has been obtained is then matched and peptides are identified on the basis of said data.

The present invention relates to detection of cancer, or assessment of risk of development thereof. In particular, the present invention provides compositions and methods detection of field carcinogenesis by identification of ultrastructural and molecular markers in a subject.

The present invention provides MT4-MMP inhibitor and EGFR inhibitor for use in the treatment of cancer, wherein said MT4-MMP inhibitor and EGFR inhibitor are different from each other. MT4-MMP (MMP-17) is a glycosylphosphatidyl inositol (GPI) anchored MMP produced by cancer cells that promotes tumor vascularization and metastases. The present invention found that MT4-MMP expression promotes cancer cell proliferation. These effects involve retinoblastoma protein (Rb) inactivation, cyclin dependent kinase CDK4 activation and Epidermal Growth Factor Receptor (EGFR) signaling. Co-immuno-precipitations indicate the existence of protein complexes harboring MT4-MMP and EGFR. The present invention further found a novel mechanism of MT4-MMP action through an outside-in signaling involving EGFR. An unexpected crosstalk between an MMP and EGFR was identified and recognized as a key driver of cancer cell biology.