Abstract: The present invention provides methods for identifying metastases by detecting nucleic acid hypermethylation of one or more genes in one or more samples, and in particular in the lymph nodes. The invention further relates to DNA methylation as a predictor of disease recurrence and patient prognosis, specifically in the field of cancer biology.

Abstract: The present invention relates to the use of nucleic acid methylation and methylation profiles to detect risk of developing neoplasia and in particular, lung cancer. The invention relates to methods for identifying a methylation profile of the CDO1, SOOX17, HOXA7, HOXA9, TAC1, and ZFP42 genes from plasma and sputum samples.

Abstract: The invention provides compositions and methods for detecting a neoplasia (e.g., pancreatic cancer, lung cancer, colon cancer) in a subject sample (e.g., serum, blood, plasma, tissue). In particular embodiments, the invention provides methods for detecting BNC1 and ADAMTS1 promoter methylation in circulating DNA in serum.

Abstract: The present invention provides methods for identifying metastases by detecting nucleic acid hypermethylation of one or more genes in one or more samples, and in particular in the lymph nodes. The invention further relates to DNA methylation as a predictor of disease recurrence and patient prognosis, specifically in the field of cancer biology.

Abstract: The invention provides compositions and methods for detecting a neoplasia (e.g., pancreatic cancer, lung cancer, colon cancer) in a subject sample (e.g., serum, blood, plasma, tissue). In particular embodiments, the invention provides methods for detecting BNC1 and ADAMTS1 promoter methylation in circulating DNA in serum.

Abstract: Methods are provided for identifying the presence of cancer cells in a sample by detecting hypermethylation of the promoter region of a GATA-4 transcription factor gene, a GATA-5 transcription factor gene, or both. Methods for ameliorating a cancer by effecting expression of a hypermethylation silenced GATA-4 and/or GATA-5 transcription also are provided.

Abstract: The present invention relates to the use of nucleic acid methylation and methylation profiles to detect predict sensitivity of cells to cytotoxic chemotherapies, and in particular to microtubule based therapies, for example taxanes. The invention relates to methods for identifying a methylation profile of the checkpoint with forkhead and ring finger domains gene (CHFR) that is associated with a sensitivity to agents directed at the microtubule.

Abstract: Methods are provided for identifying a cell exhibiting unregulated growth associated with methylation-silenced transcription of a suppressor of cytokine signaling (SOCS)/cytokine-inducible SH2 protein (CIS) family member (SOCS/CIS) gene such as the SOCS-1 gene. In addition, methods of treating a cancer patient, wherein cancer cells in the patient exhibit methylation-silenced transcription of SOCS/CIS gene such as a SOCS-1 gene, are provided, as are reagents for practicing such methods.

Abstract: Methods are provided for identifying a cell exhibiting unregulated growth associated with methylation-silenced transcription of a suppressor of cytokine signaling (SOCS)/cytokine-inducible SH2 protein (CIS) family member (SOCS/CIS) gene such as the SOCS-1 gene. In addition, methods of treating a cancer patient, wherein cancer cells in the patient exhibit methylation-silenced transcription of SOCS/CIS gene such as a SOCS-1 gene, are provided, as are reagents for practicing such methods.

Abstract: The present invention provides methods relating to chemotherapeutic treatment of a cell proliferative disorder. In particular, a method is provided for predicting the clinical response to certain types of chemotherapeutic agents. Alkylating agents, used for the treatment of certain types of tumors including tumors of the nervous system and lymph system, are efficacious agents when the damage they do to tumor cell DNA is not repaired by cellular DNA repair mechanisms. The present invention provides a method for determining the activity of a gene encoding a DNA repair enzyme, thus providing a prediction of the clinical response to alkylating agents.

Abstract: The present invention provides methods relating to chemotherapeutic treatment of a cell proliferative disorder. In particular, a method is provided for predicting the clinical response to certain types of chemotherapeutic agents. Alkylating agents, used for the treatment of certain types of tumors including tumors of the nervous system and lymph system, are efficacious agents when the damage they do to tumor cell DNA is not repaired by cellular DNA repair mechanisms. The present invention provides a method for determining the activity of a gene encoding a DNA repair enzyme, thus providing a prediction of the clinical response to alkylating agents.

Abstract: Methods are provided for identifying the presence of cancer cells in a sample by detecting hypermethylation of the promoter region of a GATA-4 transcription factor gene, a GATA-5 transcription factor gene, or both. Methods for ameliorating a cancer by effecting expression of a hypermethylation silenced GATA-4 and/or GATA-5 transcription also are provided.

Abstract: Methods are provided for identifying a cell exhibiting unregulated growth associated with methylation-silenced transcription of a suppressor of cytokine signaling (SOCS)/cytokine-inducible SH2 protein (CIS) family member (SOCS/CIS) gene such as the SOCS-1 gene. In addition, methods of treating a cancer patient, wherein cancer cells in the patient exhibit methylation-silenced transcription of SOCS/CIS gene such as a SOCS-1 gene, are provided, as are reagents for practicing such methods.

Abstract: Methods are provided for identifying the presence of cancer cells in a sample by detecting hypermethylation of the promoter region of a GATA-4 transcription factor gene, a GATA-5 transcription factor gene, or both. Methods for ameliorating a cancer by effecting expression of a hypermethylation silenced GATA-4 and/or GATA-5 transcription also are provided.

Abstract: Methods are provided for identifying a cell exhibiting unregulated growth associated with methylation-silenced transcription of a suppressor of cytokine signaling (SOCS)/cytokine-inducible SH2 protein (CIS) family member (SOCS/CIS) gene such as the SOCS-1 gene. In addition, methods of treating a cancer patient, wherein cancer cells in the patient exhibit methylation-silenced transcription of SOCS/CIS gene such as a SOCS-1 gene, are provided, as are reagents for practicing such methods.

Abstract: Methods are provided for identifying a cell exhibiting unregulated growth associated with methylation-silenced transcription of a suppressor of cytokine signaling (SOCS)/cytokine-inducible SH2 protein (CIS) family member (SOCS/CIS) gene such as the SOCS-1 gene. In addition, methods of treating a cancer patient, wherein cancer cells in the patient exhibit methylation-silenced transcription of SOCS/CIS gene such as a SOCS-1 gene, are provided, as are reagents for practicing such methods.

Abstract: The present invention provides methods relating to chemotherapeutic treatment of a cell proliferative disorder. In particular, a method is provided for predicting the clinical response to certain types of chemotherapeutic agents. Alkylating agents, used for the treatment of certain types of tumors including tumors of the nervous system and lymph system, are efficacious agents when the damage they do to tumor cell DNA is not repaired by cellular DNA repair mechanisms. The present invention provides a method for determining the activity of a gene encoding a DNA repair enzyme, thus providing a prediction of the clinical response to alkylating agents.

Abstract: The present invention provides methods relating to chemotherapeutic treatment of a cell proliferative disorder. In particular, a method is provided for predicting the clinical response to certain types of chemotherapeutic agents. Alkylating agents, used for the treatment of certain types of tumors including tumors of the nervous system and lymph system, are efficacious agents when the damage they do to tumor cell DNA is not repaired by cellular DNA repair mechanisms. The present invention provides a method for determining the activity of a gene encoding a DNA repair enzyme, thus providing a prediction of the clinical response to alkylating agents.

Abstract: The present invention provides methods relating to chemotherapeutic treatment of a cell proliferative disorder. In particular, a method is provided for predicting the clinical response to certain types of chemotherapeutic agents. Alkylating agents, used for the treatment of certain types of tumors including tumors of the nervous system and lymph system, are efficacious agents when the damage they do to tumor cell DNA is not repaired by cellular DNA repair mechanisms. The present invention provides a method for determining the activity of a gene encoding a DNA repair enzyme, thus providing a prediction of the clinical response to alkylating agents.

Abstract: The present invention provides a method for detecting a methylated CpG-containing nucleic acid present in a specimen by contacting the specimen with an agent that modifies unmethylated cytosine and amplifying the CpG-containing nucleic acid using CpG-specific oligonucleotide primers. The present invention provides an improved method of methylation detection by facilitating the rapid identification of DNA methylation patterns in a CpG-containing nucleic acid.