Abstract: Provided are methods for measuring replication-associated genomic DNA methylation loss, using a Solo-WCGW DNA sequence motif (n(x)WCpGWn(x); wherein W=A or T, n=A or G or C or T and excludes any CG dinucleotides, and x?9) to filter the methylation data. Certain methods provide for measuring the mitotic/replicative history/age of a cell or tissue sample (e.g.

Abstract: Particular aspects provide novel, high-throughput methods to quantify DNA methylation (e.g., at a single-base resolution) in an allele-specific manner. The methods comprise use of an allele-specific sequence polymorphism (e.g., allele-specific single nucleotide polymorphism; SNP) in sufficient proximity to a CpG methylation site to provide for distinguishing the methylation levels between two alleles. In particular aspects, after bisulfite modification, the genomic DNA region is PCR-amplified, and the product subjected to allele-specific pyrosequencing, and the percentage of methylation determined based on the percentage of cytosine to thymidine conversion. In further embodiments, MethyLight™ is used after bisulfite treatment. The inventive methodology has, for example, substantial utility for affording quantitative analyses in the regulation of analyses of X-inactivation, the allele-specific expression of genes (e.g., in the immune system) and junk DNA, etc.

Abstract: Particular aspects confirm the existence of a CpG island methylator phenotype (CIMP) in colorectal cancer, and provide novel validated DNA methylation markers associated with CIMP. Additional aspects provide novel methods and compositions for: determining CIMP status in colorectal cancers, determining the relationship between CIMP status and other molecular features of the cancers (e.g., BRAF mutation, KRAS mutation, and MSI status); determining the relationship between CIMP status and other variables (e.g., age, sex, tumor location, family history, race, country of origin, tumor characteristics (including, tumor type, tumor grade, invasive margin characteristics, lymphocyte infiltration characteristics, direct spread, lymph node spread, venous spread, and type of residual adjacent polyp, if present)); and determining, between subgroups defined by CIMP status and BRAF mutations, effects of selected risk factors (e.g.

Abstract: Provided are novel sensitive methylation assays referred to herein as Digital MethyLight, comprising stochastically distributing and compartmentalizing bisulfite-treated genomic DNA over multiple PCR reaction wells for detection of individually methylated DNA molecules in a large background of unmethylated DNA. Digital Bisulfite Genomic DNA Sequencing methods are also provided for high-resolution DNA methylation information without subcloning. Background signal and PCR contaminants are diluted, while the ratio of primer to methylated template DNA is kept high. Preferably, biological fluid (e.g., urine, blood-based (e.g., plasma and/or serum)) samples are analyzed for cancer diagnosis, prognosis and surveillance. Multiplexed PCR formats may be implemented to enhance when using small DNA amounts.

Abstract: Preferred aspects provide novel high-throughput, sensitive methods (e.g., real-time PCR-based (MethyLight™) reactions) for detection and/or measurement of global genomic 5-methylcytosine content, based on measurement of DNA methylation of Alu, LINE-1 repetitive sequences, and the chromosome 1 centromeric satellite alpha and juxtacentromeric satellite 2 repeat sequences. Additional aspects provide sensitive methods for determining the amount of a DNA (e.g., in formalin-fixed, paraffin-embedded tissues). Combined (mean) use of Alu and Sat2 repeat methylation measurements provides for a surprisingly close correlation with global genomic 5-methylcytosine content measurements obtained by HPLC. Methylation of Alu repeats was determined to be closely associated with HPLC-based global methylation levels, as was methylation of satellite 2 and LINE-1 global genomic 5-methylcytosine content.

Abstract: In particular aspects, stem-cell polycomb group (PcG) targets are more likely to have cancer-specific promoter DNA methylation than non-targets, indicating a stem-cell origin of cancer, where reversible gene repression is replaced by permanent silencing, locking the cell into a perpetual state of self-renewal and predisposition to subsequent malignant transformation. Exemplary aspects provide methods for identifying preferred DNA methylation markers for a cellular proliferative disorder and/or cancer and markers for developmental lineages and/or stages, based on identifying PcG protein or PcG repressive complex genomic target loci within a precursor cell (e.g., stem or progenitor cell) population, and determining, in cells of the proliferative disorder and/or cancer or cell of the particular developmental lineages and/or stages, a characteristic methylation status of the PcG target loci. Additional aspects provide methods for validating and/or monitoring a precursor cell (e.g., stem cell) population.

Abstract: Particular aspects provide methods and compositions (e.g., gene marker panels) having substantial utility for at least one of diagnosis, identification and classification of colorectal cancer (CRC) (e.g., tumors) relating to distinctive DNA methylation-based subgroups of CRC including CpG island methylator phenotype (CIMP) groups (e.g., CIMP-H and CIMP-L) and non-CIMP groups. Exemplary marker panels include: B3GAT2, FOXL2, KCNK13, RAB31 and SLIT1 (CIMP marker panel); and FAM78A, FSTL1, KCNC1, MYOCD, and SLC6A4 (CIMP-H marker panel). Further aspects relate to genetic mutations, and other epigenetic markers relating to said CRC subgroups that can be used in combination with the gene marker panels for at least one of diagnosis, identification and classification of colorectal cancer (CRC) (e.g., tumors) relating to distinctive CIMP and non-CIMP groups.

Abstract: Particular embodiments provide novel and clinically useful DNA methylation predictors of hormone receptor status, and predictors of response to endocrine (e.g., hormonal) and non-endocrine breast cancer therapy. The ESR1 gene, encoding the estrogen receptor (ER) alpha proved to be the preferred predictor of progesterone receptor (PR) status, while methylation of the PGR gene, encoding PR, was the preferred predictor of ER status. ESR1 methylation outperformed hormone receptor status as a predictor of clinical response in patients treated with antiestroges (e.g., tamoxifen), while promoter methylation of the CYP1B1 gene, encoding a tamoxifen and estradiol metabolizing cytochrome P450, predicted response differentially in tamoxifen-treated and non-treated patients. High levels of promoter methylation of the ARH1 gene, encoding a RAS-related small G-protein, were shown to be preferred predictors of better survival in patients who had not received tamoxifen therapy.

Abstract: There is disclosed an improved high-throughput and quantitative process for determining methylation patterns in genomic DNA samples based on amplifying modified nucleic acid, and detecting methylated nucleic acid based on amplification-dependent displacement of specifically annealed hybridization probes. Specifically, the inventive process provides for treating genomic DNA samples with sodium bisulfite to create methylation-dependent sequence differences, followed by detection with fluorescence-based quantitative PCR techniques. The process is particularly well suited for the rapid analysis of a large number of nucleic acid samples, such as those from collections of tumor tissues.

Abstract: Particular aspects confirm the existence of a CpG island methylator phenotype (CIMP) in colorectal cancer, and provide novel validated DNA methylation markers associated with CIMP. Additional aspects provide novel methods and compositions for: determining CIMP status in colorectal cancers, determining the relationship between CIMP status and other molecular features of the cancers (e.g., BRAF mutation, KRAS mutation and MSI status); determining the relationship between CIMP status and other variables (e.g., age, sex, tumor location, family history, race, country of origin, tumor characteristics (including, tumor type, tumor grade, invasive margin characteristics, lymphocyte infiltration characteristics, direct spread, lymph node spread, venous spread and type of residual adjacent polyp, if present)); and determining, between subgroups defined by CIMP status and BRAF mutations, effects of selected risk factors (e.g.

Abstract: Particular aspects confirm the existence of a CpG island methylator phenotype (CIMP) in colorectal cancer, and provide novel validated DNA methylation markers associated with CIMP. Additional aspects provide novel methods and compositions for: determining CIMP status in colorectal cancers, determining the relationship between CIMP status and other molecular features of the cancers (e.g., BRAF mutation, KRAS mutation and MSI status); determining the relationship between CIMP status and other variables (e.g., age, sex, tumor location, family history, race, country of origin, tumor characteristics (including, tumor type, tumor grade, invasive margin characteristics, lymphocyte infiltration characteristics, direct spread, lymph node spread, venous spread and type of residual adjacent polyp, if present)); and determining, between subgroups defined by CIMP status and BRAF mutations, effects of selected risk factors (e.g.

Abstract: Provided are methods for controlling endogenous gene expression comprising control of the DNA methyltransferase (Dnmt1) for modulation of DNA methylation and epigenetic mechanisms. Provided are transcriptional regulatory systems involving multiple (e.g., three) exogenous binary systems, lacI, tetR and Gal4, for reversible up/down regulation of endogenous target genes Provided are lac operator and repressor modifications for improved repression relative to wild type (WT) lac and tet systems. Provided are endogenous Dnmt1 promoter modifications, comprising targeted lac operator sequences that do not significantly alter promoter activity absent repressors, yet show substantially reduced expression of the targeted allele upon lac repressor introduction. The lacO targeted Dnmt1 allele is introducible into the mouse germline, to provide a respective upregulatable transcriptional control system in vivo (e.g.

Abstract: In particular aspects, stem-cell polycomb group (PcG) targets are more likely to have cancer-specific promoter DNA methylation than non-targets, indicating a stem-cell origin of cancer, where reversible gene repression is replaced by permanent silencing, locking the cell into a perpetual state of self-renewal and predisposition to subsequent malignant transformation. Exemplary aspects provide methods for identifying preferred DNA methylation markers for a cellular proliferative disorder and/or cancer and markers for developmental lineages and/or stages, based on identifying PcG protein or PcG repressive complex genomic target loci within a precursor cell (e.g., stem or progenitor cell) population, and determining, in cells of the proliferative disorder and/or cancer or cell of the particular developmental lineages and/or stages, a characteristic methylation status of the PcG target loci. Additional aspects provide methods for validating and/or monitoring a precursor cell (e.g., stem cell) population.

Abstract: Provided are compositions and methods for diagnosis or prognosis of testicular or male germ-cell derived cancer, comprising: obtaining sperm DNA from a test subject; determining the methylation status of at least one CpG dinucleotide sequence of at least one gene sequence selected from HRAS, NTF3, MT1A, PAX8, DIRAS3, PLAGL1, SFN, SAT2CHRM1, MEST, RNR1, CYP27B1 and ICAM1; and thereby determining or diagnosing testicular or male germ-cell derived cancer. Provided are compositions and methods for identifying agents that cause testicular or male germ-cell derived cancer, comprising: obtaining human ES-cell derived primordial germ cells; contacting the germ cells or descendants thereof, with a test agent; culturing the contacted cells; determining, using a genomic DNA of the sample, the methylation status of at least one CpG dinucleotide sequence of at least one gene sequence selected from the above group; and identifying at least one test agent that causes testicular or male germ-cell derived cancer.

Abstract: There is disclosed an improved high-throughput and quantitative process for determining methylation patterns in genomic DNA samples based on amplifying modified nucleic acid, and detecting methylated nucleic acid based on amplification-dependent displacement of specifically annealed hybridization probes. Specifically, the inventive process provides for treating genomic DNA samples with sodium bisulfite to create methylation-dependent sequence differences, followed by detection with fluorescence-based quantitative PCR techniques.

Abstract: Provided are compositions and methods for determining or diagnosing abnormal sperm or fertility, comprising: obtaining sperm DNA from a test subject; determining the methylation status of at least one CpG dinucleotide sequence of at least one gene sequence selected from HRAS, NTF3, MT1A, PAX8, DIRAS3, PLAGL1, SFN, SAT2CHRM1, MEST, RNR1, CYP27B1 and ICAM1; and thereby determining or diagnosing abnormal sperm or fertility. Provided are compositions and methods for identifying agents that cause spermatogenic deficits or abnormal sperm fertility, comprising: obtaining human ES-cell derived primordial germ cells; contacting the germ cells or descendants thereof, with a test agent; culturing the contacted cells; determining, using a genomic DNA of the sample, the methylation status of at least one CpG dinucleotide sequence of at least one gene sequence selected from the above group; and identifying at least one test agent that causes at least one of spermatogenic deficits, abnormal sperm, and abnormal fertility.

Abstract: There is disclosed an improved high-throughput and quantitative process for determining methylation patterns in genomic DNA samples based on amplifying modified nucleic acid, and detecting methylated nucleic acid based on amplification-dependent displacement of specifically annealed hybridization probes. Specifically, the inventive process provides for treating genomic DNA samples with sodium bisulfite to create methylation-dependent sequence differences, followed by detection with fluorescence-based quantitative PCR techniques. The process is particularly well suited for the rapid analysis of a large number of nucleic acid samples, such as those from collections of tumor tissues.

Abstract: Particular embodiments provide novel and clinically useful DNA methylation predictors of hormone receptor status, and predictors of response to endocrine (e.g., hormonal) and non-endocrine breast cancer therapy. The ESR1 gene, encoding the estrogen receptor (ER) alpha proved to be the preferred predictor of progesterone receptor (PR) status, while methylation of the PGR gene, encoding PR, was the preferred predictor of ER status. ESR1 methylation outperformed hormone receptor status as a predictor of clinical response in patients treated with antiestroges (e.g., tamoxifen), while promoter methylation of the CYP1B1 gene, encoding a tamoxifen and estradiol metabolizing cytochrome P450, predicted response differentially in tamoxifen-treated and non-treated patients. High levels of promoter methylation of the ARHI gene, encoding a RAS-related small G-protein, were shown to be preferred predictors of better survival in patients who had not received tamoxifen therapy.

Abstract: Preferred aspects provide novel high-throughput, sensitive methods (e.g., real-time PCR-based (MethyLight™) reactions) for detection and/or measurement of global genomic 5-methylcytosine content, based on measurement of DNA methylation of Alu, LINE-1 repetitive sequences, and the chromosome 1 centromeric satellite alpha and juxtacentromeric satellite 2 repeat sequences. Additional aspects provide sensitive methods for determining the amount of a DNA (e.g., in formalin-fixed, paraffin-embedded tissues). Combined (mean) use of Alu and Sat2 repeat methylation measurements provides for a surprisingly close correlation with global genomic 5-methylcytosine content measurements obtained by HPLC. Methylation of Alu repeats was determined to be closely associated with HPLC-based global methylation levels, as was methylation of satellite 2 and LINE-1 global genomic 5-methylcytosine content.

Abstract: Particular aspects confirm the existence of a CpG island methylator phenotype (CIMP) in colorectal cancer, and provide novel validated DNA methylation markers associated with CIMP. Additional aspects provide novel methods and compositions for: determining CIMP status in colorectal cancers, determining the relationship between CIMP status and other molecular features of the cancers (e.g., BRAF mutation, KRAS mutation and MSI status); determining the relationship between CIMP status and other variables (e.g., age, sex, tumor location, family history, race, country of origin, tumor characteristics (including, tumor type, tumor grade, invasive margin characteristics, lymphocyte infiltration characteristics, direct spread, lymph node spread, venous spread and type of residual adjacent polyp, if present)); and determining, between subgroups defined by CIMP status and BRAF mutations, effects of selected risk factors (e.g.