TY - JOUR
T1 - DNA methylation signatures within the human brain
AU - Ladd-Acosta, Christine
AU - Pevsner, Jonathan
AU - Sabunciyan, Sarven
AU - Yolken, Robert H.
AU - Webster, Maree J.
AU - Dinkins, Tiffany
AU - Callinan, Pauline A.
AU - Fan, Jian Bing
AU - Potash, James B.
AU - Feinberg, Andrew P.
N1 - Funding Information:
Author contributions: C.L.-A. performed most of the experiments and data analysis; J.P., S.S., and R.Y. provided samples, expertise, and technical assistance; T.D. and P.A.C. assisted with experiments; J.-B.F. performed the initial Illumina hybridization; and J.B.P. was the clinical and A.P.F. the molecular senior investigator. We thank Rafael Irizarry for advice regarding statistical analysis. This work was supported by National Institutes of Health (NIH) grant HG003233. Some tissues were provided by the Harvard Brain Tissue Resource Center, which is supported in part by NIH grant MH68855, and by the University of Maryland Brain Bank, which is supported in part by NICHD contract NO1-HD-8-3283.
PY - 2007
Y1 - 2007
N2 - DNA methylation is a heritable modification of genomic DNA central to development, imprinting, transcriptional regulation, chromatin structure, and overall genomic stability. Aberrant DNA methylation of individual genes is a hallmark of cancer and has been shown to play an important role in neurological disorders such as Rett syndrome. Here, we asked whether normal DNA methylation might distinguish individual brain regions. We determined the quantitative DNA methylation levels of 1,505 CpG sites representing 807 genes with diverse functions, including proliferation and differentiation, previously shown to be implicated in human cancer. We initially analyzed 76 brain samples representing cerebral cortex (n = 35), cerebellum (n = 34), and pons (n = 7), along with liver samples (n = 3) from 43 individuals. Unsupervised hierarchical analysis showed clustering of 33 of 35 cerebra distinct from the clustering of 33 of 34 cerebella, 7 of 7 pons, and all 3 livers. By use of comparative marker selection and permutation testing, 156 loci representing 118 genes showed statistically significant differences - a ≥ 17% absolute change in DNA methylation (P < .004) - among brain regions. These results were validated for all six genes tested in a replicate set of 57 samples. Our data suggest that DNA methylation signatures distinguish brain regions and may help account for region-specific functional specialization.
AB - DNA methylation is a heritable modification of genomic DNA central to development, imprinting, transcriptional regulation, chromatin structure, and overall genomic stability. Aberrant DNA methylation of individual genes is a hallmark of cancer and has been shown to play an important role in neurological disorders such as Rett syndrome. Here, we asked whether normal DNA methylation might distinguish individual brain regions. We determined the quantitative DNA methylation levels of 1,505 CpG sites representing 807 genes with diverse functions, including proliferation and differentiation, previously shown to be implicated in human cancer. We initially analyzed 76 brain samples representing cerebral cortex (n = 35), cerebellum (n = 34), and pons (n = 7), along with liver samples (n = 3) from 43 individuals. Unsupervised hierarchical analysis showed clustering of 33 of 35 cerebra distinct from the clustering of 33 of 34 cerebella, 7 of 7 pons, and all 3 livers. By use of comparative marker selection and permutation testing, 156 loci representing 118 genes showed statistically significant differences - a ≥ 17% absolute change in DNA methylation (P < .004) - among brain regions. These results were validated for all six genes tested in a replicate set of 57 samples. Our data suggest that DNA methylation signatures distinguish brain regions and may help account for region-specific functional specialization.
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U2 - 10.1086/524110
DO - 10.1086/524110
M3 - Article
C2 - 17999367
AN - SCOPUS:36749052947
SN - 0002-9297
VL - 81
SP - 1304
EP - 1315
JO - American journal of human genetics
JF - American journal of human genetics
IS - 6
ER -