Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development

Yi An Ko; Davoud Mohtat; Masako Suzuki; Ae S.D. Park; Maria C. Izquierdo; Sang Y. Han; Hyun M. Kang; Han Si; Thomas Hostetter; James M. Pullman; Melissa Fazzari; Amit Verma; Deyou Zheng; John M. Greally; Katalin Susztak

doi:10.1186/gb-2013-14-10-r108

Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development

Yi An Ko, Davoud Mohtat, Masako Suzuki, Ae S.D. Park, Maria C. Izquierdo, Sang Y. Han, Hyun M. Kang, Han Si, Thomas Hostetter, James M. Pullman, Melissa Fazzari, Amit Verma, Deyou Zheng, John M. Greally, Katalin Susztak

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182 Scopus citations

Abstract

Background: One in eleven people is affected by chronic kidney disease, a condition characterized by kidney fibrosis and progressive loss of kidney function. Epidemiological studies indicate that adverse intrauterine and postnatal environments have a long-lasting role in chronic kidney disease development. Epigenetic information represents a plausible carrier for mediating this programming effect. Here we demonstrate that genome-wide cytosine methylation patterns of healthy and chronic kidney disease tubule samples obtained from patients show significant differences.Results: We identify differentially methylated regions and validate these in a large replication dataset. The differentially methylated regions are rarely observed on promoters, but mostly overlap with putative enhancer regions, and they are enriched in consensus binding sequences for important renal transcription factors. This indicates their importance in gene expression regulation. A core set of genes that are known to be related to kidney fibrosis, including genes encoding collagens, show cytosine methylation changes correlating with downstream transcript levels.Conclusions: Our report raises the possibility that epigenetic dysregulation plays a role in chronic kidney disease development via influencing core pro-fibrotic pathways and can aid the development of novel biomarkers and future therapeutics.

Original language	English (US)
Article number	R108
Journal	Genome biology
Volume	14
Issue number	10
DOIs	https://doi.org/10.1186/gb-2013-14-10-r108
State	Published - Oct 7 2013

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Genetics
Cell Biology

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Ko, Y. A., Mohtat, D., Suzuki, M., Park, A. S. D., Izquierdo, M. C., Han, S. Y., Kang, H. M., Si, H., Hostetter, T., Pullman, J. M., Fazzari, M., Verma, A., Zheng, D., Greally, J. M., & Susztak, K. (2013). Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development. Genome biology, 14(10), Article R108. https://doi.org/10.1186/gb-2013-14-10-r108

Ko, YA, Mohtat, D, Suzuki, M, Park, ASD, Izquierdo, MC, Han, SY, Kang, HM, Si, H, Hostetter, T, Pullman, JM , Fazzari, M , Verma, A , Zheng, D , Greally, JM & Susztak, K 2013, 'Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development', Genome biology, vol. 14, no. 10, R108. https://doi.org/10.1186/gb-2013-14-10-r108

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title = "Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development",

abstract = "Background: One in eleven people is affected by chronic kidney disease, a condition characterized by kidney fibrosis and progressive loss of kidney function. Epidemiological studies indicate that adverse intrauterine and postnatal environments have a long-lasting role in chronic kidney disease development. Epigenetic information represents a plausible carrier for mediating this programming effect. Here we demonstrate that genome-wide cytosine methylation patterns of healthy and chronic kidney disease tubule samples obtained from patients show significant differences.Results: We identify differentially methylated regions and validate these in a large replication dataset. The differentially methylated regions are rarely observed on promoters, but mostly overlap with putative enhancer regions, and they are enriched in consensus binding sequences for important renal transcription factors. This indicates their importance in gene expression regulation. A core set of genes that are known to be related to kidney fibrosis, including genes encoding collagens, show cytosine methylation changes correlating with downstream transcript levels.Conclusions: Our report raises the possibility that epigenetic dysregulation plays a role in chronic kidney disease development via influencing core pro-fibrotic pathways and can aid the development of novel biomarkers and future therapeutics.",

author = "Ko, {Yi An} and Davoud Mohtat and Masako Suzuki and Park, {Ae S.D.} and Izquierdo, {Maria C.} and Han, {Sang Y.} and Kang, {Hyun M.} and Han Si and Thomas Hostetter and Pullman, {James M.} and Melissa Fazzari and Amit Verma and Deyou Zheng and Greally, {John M.} and Katalin Susztak",

note = "Funding Information: This work was supported by the NIH 5R01DK087635-03 to JMG and KS. MCI was supported by the Ministry of Spain FI08/00476. We would like to thank Drs Anil Gaikwad and Yiting Yu for their help. We would like to thank the staff members of the Montefiore Pathology department and Einstein{\textquoteright}s Center for Epigenomics for their support.",

year = "2013",

month = oct,

day = "7",

doi = "10.1186/gb-2013-14-10-r108",

language = "English (US)",

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journal = "Genome biology",

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T1 - Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development

AU - Ko, Yi An

AU - Mohtat, Davoud

AU - Suzuki, Masako

AU - Park, Ae S.D.

AU - Izquierdo, Maria C.

AU - Han, Sang Y.

AU - Kang, Hyun M.

AU - Si, Han

AU - Hostetter, Thomas

AU - Pullman, James M.

AU - Fazzari, Melissa

AU - Verma, Amit

AU - Zheng, Deyou

AU - Greally, John M.

AU - Susztak, Katalin

N1 - Funding Information: This work was supported by the NIH 5R01DK087635-03 to JMG and KS. MCI was supported by the Ministry of Spain FI08/00476. We would like to thank Drs Anil Gaikwad and Yiting Yu for their help. We would like to thank the staff members of the Montefiore Pathology department and Einstein’s Center for Epigenomics for their support.

PY - 2013/10/7

Y1 - 2013/10/7

N2 - Background: One in eleven people is affected by chronic kidney disease, a condition characterized by kidney fibrosis and progressive loss of kidney function. Epidemiological studies indicate that adverse intrauterine and postnatal environments have a long-lasting role in chronic kidney disease development. Epigenetic information represents a plausible carrier for mediating this programming effect. Here we demonstrate that genome-wide cytosine methylation patterns of healthy and chronic kidney disease tubule samples obtained from patients show significant differences.Results: We identify differentially methylated regions and validate these in a large replication dataset. The differentially methylated regions are rarely observed on promoters, but mostly overlap with putative enhancer regions, and they are enriched in consensus binding sequences for important renal transcription factors. This indicates their importance in gene expression regulation. A core set of genes that are known to be related to kidney fibrosis, including genes encoding collagens, show cytosine methylation changes correlating with downstream transcript levels.Conclusions: Our report raises the possibility that epigenetic dysregulation plays a role in chronic kidney disease development via influencing core pro-fibrotic pathways and can aid the development of novel biomarkers and future therapeutics.

AB - Background: One in eleven people is affected by chronic kidney disease, a condition characterized by kidney fibrosis and progressive loss of kidney function. Epidemiological studies indicate that adverse intrauterine and postnatal environments have a long-lasting role in chronic kidney disease development. Epigenetic information represents a plausible carrier for mediating this programming effect. Here we demonstrate that genome-wide cytosine methylation patterns of healthy and chronic kidney disease tubule samples obtained from patients show significant differences.Results: We identify differentially methylated regions and validate these in a large replication dataset. The differentially methylated regions are rarely observed on promoters, but mostly overlap with putative enhancer regions, and they are enriched in consensus binding sequences for important renal transcription factors. This indicates their importance in gene expression regulation. A core set of genes that are known to be related to kidney fibrosis, including genes encoding collagens, show cytosine methylation changes correlating with downstream transcript levels.Conclusions: Our report raises the possibility that epigenetic dysregulation plays a role in chronic kidney disease development via influencing core pro-fibrotic pathways and can aid the development of novel biomarkers and future therapeutics.

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Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development

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