Abstract: A method for detecting cells having granules expressing G protein coupled receptor-associated sorting protein 1 (GASP-1) or a fragment thereof is provided. The detection method may comprise: (a) contacting the cells with an effective amount of a binding protein, wherein the binding protein comprises an antigen binding fragment that specifically binds GASP-1; and (b) identifying cells having granules bound to the binding protein. The GASP-1 granules may be in the cytosol or on the surface of the cells. Also provided are methods for producing T-cells comprising a chimeric antigen receptor, anti-GASP-1 antibody or a bi-specific binding protein. Further provided are methods for treating GASP-1-mediated to disease or inactivating exosomes, microvesicles or oncosomes.

Abstract: A highly sensitive method of detecting GASP-1 or a fragment thereof in a sample is provided. The method comprises (a) exposing a surface to a sample comprising GASP-1 or a fragment thereof; (b) immobilizing an anti-GASP-1 detection antibody to the surface; (c) measuring the amount of the anti-GASP-1 detection antibody immobilized to the surface; and (d) determining the presence of the GASP-1 or a fragment thereof in the sample based on the amount of the anti-GASP-1 detection antibody immobilized to the surface. A coating agent may be immobilized to the surface in step (a), and the anti-GASP-1 detection antibody may be immobilized to the surface via the coating agent, directly or indirectly. The coating agent may be selected from the group consisting of a first GASP-1 fragment, a conjugate of a protein (e.g., bovine serum albumin (BSA)) and a GASP-1 peptide, a capture antibody against a microvesicle or exosomal surface biomarker, a capture antibody against a second GASP-1 fragment, and a combination thereof.

Abstract: A method for detecting cells having granules expressing G protein coupled receptor-associated sorting protein 1 (GASP-1) or a fragment thereof is provided. The detection method may comprise: (a) contacting the cells with an effective amount of a binding protein, wherein the binding protein comprises an antigen binding fragment that specifically binds GASP-1; and (b) identifying cells having granules bound to the binding protein. The GASP-1 granules may be in the cytosol or on the surface of the cells. Also provided are methods for producing T-cells comprising a chimeric antigen receptor, anti-GASP-1 antibody or a bi-specific binding protein. Further provided are methods for treating GASP-1-mediated to disease or inactivating exosomes, microvesicles or oncosomes.

Abstract: A highly sensitive method of detecting GASP-1 or a fragment thereof in a sample is provided. The method comprises (a) exposing a surface to a sample comprising GASP-1 or a fragment thereof; (b) immobilizing an anti-GASP-1 antibody to the surface in the presence of the GASP-1 or a fragment thereof; (c) measuring the amount of the anti-GASP-1 antibody immobilized to the surface; and (d) determining the presence of the GASP-1 or a fragment thereof in the sample based on the amount of the anti-GASP-1 antibody immobilized to the surface. A coating agent may be immobilized to the surface in step (a), and the anti-GASP-1 antibody may be immobilized to the surface via the coating agent. The coating agent may be selected from the group consisting of a conjugate of bovine serum albumin (BSA) and a GASP-1 peptide (BSA-GASP-1 conjugate) a capture antibody against a microvesicle or exosomal surface biomarker, and a combination thereof. Also provided are kits for detecting GASP-1 or its fragment.

Abstract: An embodiment of the invention relates to the use of stabilized cancer peptide fragments derived from “redoxin proteins” selected from the group consisting of thioredoxin; peroxiredoxin-1, 2 and 3; glutaredoxin-3; glutathione peroxidase-4; and nucleoredoxins for the diagnosis of cancers, particularly pancreatic cancer. A method for the detection of cancer, severity of cancer, and/or effectiveness of a therapeutic regimen comprises detecting and/or measuring the amount of redoxin peptide fragments present in the biological sample of a subject.

Abstract: The present invention provides compositions and methods of treating cancer by inducing the cellular differentiation activity of angiocidin.

Abstract: Methods are presented for the therapeutic administration of angiocidin in the treatment of cancers such as glioma, breast cancer, and leukemia. Methods are also presented for inducing growth arrest and/or apoptosis of tumor cells, as well as inducing differentiation of tumor cells to inhibit tumorigenicity and to confer a non-tumor or healthy phenotype.

Abstract: Methods are presented for the therapeutic administration of angiocidin in the treatment of cancers such as glioma, breast cancer, and leukemia. Methods are also presented for inducing growth arrest and/or apoptosis of tumor cells, as well as inducing differentiation of tumor cells to inhibit tumorigenicity and to confer a non-tumor or healthy phenotype.

Abstract: An embodiment of the invention relates to the use of stabilized cancer peptide fragments derived from “redoxin proteins” selected from the group consisting of thioredoxin; peroxiredoxin-1, 2 and 3; glutaredoxin-3; glutathione peroxidase-4; and nucleoredoxins for the diagnosis of cancers, particularly pancreatic cancer. A method for the detection of cancer, severity of cancer, and/or effectiveness of a therapeutic regimen comprises detecting and/or measuring the amount of redoxin peptide fragments present in the biological sample of a subject.

Abstract: Methods for identifying disease-specific markers, in particular breast cancer markers, by electrophoretically separating serum albumin complexes in a biological sample on a membrane are provided. Electrophoretic separation profiles representing different diseases or different cancer stages can be produced, and used in the diagnosis, prognosis and treatment of these diseases. Methods for identification of a cancer peptide fragment comprising a cancer peptide motif are provided. Also provided are breast cancer and other cancer markers and antibodies that specifically recognize these markers.

Abstract: Methods are presented for the therapeutic administration of angiocidin in the treatment of cancers such as glioma, breast cancer, and leukemia. Methods are also presented for inducing growth arrest and/or apoptosis of tumor cells, as well as inducing differentiation of tumor cells to inhibit tumorigenicity and to confer a non-tumor or healthy phenotype.

Abstract: A method for determining whether early stage cancer is present in a subject comprises detecting the expression level of GASP-1 in the subject by detecting the amount of GASP-1 peptide fragments present in a biological sample of the subject. Because cancer can be detected at an early stage, therapeutic targeting may be initiated before cancer reaches late stage (e.g., before the development of overt symptoms). A method for treating early stage cancer in a subject comprises administering to the subject an effective amount of a GASP-1 inhibitor to inhibit the progression of early stage cancer to late stage cancer. A Competitive ELISA capable of detecting GASP-1 peptide fragments at a concentration of less than 1 ng/ml was developed.

Abstract: Methods are presented for the therapeutic administration of angiocidin in the treatment of cancers such as glioma, breast cancer, and leukemia. Methods are also presented for inducing growth arrest and/or apoptosis of tumor cells, as well as inducing differentiation of tumor cells to inhibit tumorigenicity and to confer a non-tumor or healthy phenotype.

Abstract: A method for determining whether early stage cancer is present in a subject comprises detecting the expression level of GASP-1 in the subject by detecting the amount of GASP-1 peptide fragments present in a biological sample of the subject. Because cancer can be detected at an early stage, therapeutic targeting may be initiated before cancer reaches late stage (e.g., before the development of overt symptoms). A method for treating early stage cancer in a subject comprises administering to the subject an effective amount of a GASP-1 inhibitor to inhibit the progression of early stage cancer to late stage cancer. A Competitive ELISA capable of detecting GASP-1 peptide fragments at a concentration of less than 1 ng/ml was developed.

Abstract: Disease specific markers, in particular cancer markers, can be detected by electrophoretically separating proteins and protein complexes from a biological sample on a protein binding polymeric membrane in a low conductivity, water-miscible organic solvent buffer. Electrophoretic separation profiles representing different diseases can be produced, and used in the diagnosis or prognosis of these diseases.

Abstract: A method for determining whether early stage cancer is present in a subject comprises detecting the expression level of GASP-1 in the subject by detecting the amount of GASP-1 peptide fragments present in a biological sample of the subject. Because cancer can be detected at an early stage, therapeutic targeting may be initiated before cancer reaches late stage (e.g., before the development of overt symptoms). A method for treating early stage cancer in a subject comprises administering to the subject an effective amount of a GASP-1 inhibitor to inhibit the progression of early stage cancer to late stage cancer. A Competitive ELISA capable of detecting GASP-1 peptide fragments at a concentration of less than 1 ng/ml was developed.

Abstract: Methods for identifying disease-specific markers, in particular breast cancer markers, by electrophoretically separating serum albumin complexes in a biological sample on a membrane are provided. Electrophoretic separation profiles representing different diseases or different cancer stages can be produced, and used in the diagnosis, prognosis and treatment of these diseases. Methods for identification of a cancer peptide fragment comprising a cancer peptide motif are provided. Also provided are breast cancer and other cancer markers and antibodies that specifically recognize these markers.

Abstract: Methods are presented for the therapeutic administration of angiocidin in the treatment of cancers such as glioma, breast cancer, and leukemia. Methods are also presented for inducing growth arrest and/or apoptosis of tumor cells, as well as inducing differentiation of tumor cells to inhibit tumorigenicity and to confer a non-tumor or healthy phenotype.

Abstract: Disease specific markers, in particular cancer markers, can be detected by electrophoretically separating proteins and protein complexes from a biological sample on a protein binding polymeric membrane in a low conductivity, water-miscible organic solvent buffer. Electrophoretic separation profiles representing different diseases can be produced, and used in the diagnosis or prognosis of these diseases.

Abstract: Methods for inhibiting angiogenesis in endothelial cells and selectively inducing apoptosis in endothelial cells via compounds which binds annexin II are provided. These compounds and methods for using these compounds are useful in the treatment of diseases or disorders characterized by unwanted angiogenesis. Also provided are pharmaceutical compositions containing a compound which binds annexin II and a pharmaceutically acceptable vehicle and methods for identifying such compounds.