Leveraging Cross- Species Transcription Factor Binding Site Patterns: From Diabetes Risk Loci to Disease Mechanisms

M Claussnitzer; SN Dankel; B Klocke; H Grallert; V Glunk; T Berulava; H Lee; N Oskolkov; J Fadista; K Ehlers; S Wahl; C Hoffmann; K Qian; T Ronn; H Riess; M Muller-Nurasyid; N Bretschneider; T Schroeder; T Skurk; B Horsthemke; D Spieler; M Klingenspor; M Seifert; MJ Kern; N Mejhert; I Dahlman; O Hansson; SM Hauck; M Bluher; P Arner; L Groop; T Illig; K Suhre; YH Hsu; G Mellgren; H Hauner; H Laumen

doi:10.1016/j.cell.2013.10.058

Leveraging Cross- Species Transcription Factor Binding Site Patterns: From Diabetes Risk Loci to Disease Mechanisms

M Claussnitzer, SN Dankel, B Klocke, H Grallert, V Glunk, T Berulava, H Lee, N Oskolkov, J Fadista, K Ehlers, S Wahl, C Hoffmann, K Qian, T Ronn, H Riess, M Muller-Nurasyid, N Bretschneider, T Schroeder, T Skurk, B HorsthemkeD Spieler, M Klingenspor, M Seifert, MJ Kern, N Mejhert, I Dahlman, O Hansson, SM Hauck, M Bluher, P Arner, L Groop, T Illig, K Suhre, YH Hsu, G Mellgren, H Hauner, H Laumen

Research output: Contribution to journal › Article › Academic › peer-review

93 Citations (Scopus)

Abstract

Genome-wide association studies have revealed numerous risk loci associated with diverse diseases. However, identification of disease-causing variants within association loci remains a major challenge. Divergence in gene expression due to cis-regulatory variants in noncoding regions is central to disease susceptibility. We show that integrative computational analysis of phylogenetic conservation with a complexity assessment of co-occurring transcription factor binding sites (TFBS) can identify cis-regulatory variants and elucidate their mechanistic role in disease. Analysis of established type 2 diabetes risk loci revealed a striking clustering of distinct homeobox TFBS. We identified the PRRX1 homeobox factor as a repressor of PPARG2 expression in adipose cells and demonstrate its adverse effect on lipid metabolism and systemic insulin sensitivity, dependent on the rs4684847 risk allele that triggers PRRX1 binding. Thus, cross-species conservation analysis at the level of co-occurring TFBS provides a valuable contribution to the translation of genetic association signals to disease-related molecular mechanisms.

Original language	Undefined/Unknown
Pages (from-to)	343-358
Number of pages	16
Journal	Cell
Volume	156
Issue number	1-2
DOIs	https://doi.org/10.1016/j.cell.2013.10.058
Publication status	Published - 2014
Externally published	Yes

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10.1016/j.cell.2013.10.058

Cite this

Claussnitzer, M., Dankel, SN., Klocke, B., Grallert, H., Glunk, V., Berulava, T., Lee, H., Oskolkov, N., Fadista, J., Ehlers, K., Wahl, S., Hoffmann, C., Qian, K., Ronn, T., Riess, H., Muller-Nurasyid, M., Bretschneider, N., Schroeder, T., Skurk, T., ... Laumen, H. (2014). Leveraging Cross- Species Transcription Factor Binding Site Patterns: From Diabetes Risk Loci to Disease Mechanisms. Cell, 156(1-2), 343-358. https://doi.org/10.1016/j.cell.2013.10.058

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title = "Leveraging Cross- Species Transcription Factor Binding Site Patterns: From Diabetes Risk Loci to Disease Mechanisms",

abstract = "Genome-wide association studies have revealed numerous risk loci associated with diverse diseases. However, identification of disease-causing variants within association loci remains a major challenge. Divergence in gene expression due to cis-regulatory variants in noncoding regions is central to disease susceptibility. We show that integrative computational analysis of phylogenetic conservation with a complexity assessment of co-occurring transcription factor binding sites (TFBS) can identify cis-regulatory variants and elucidate their mechanistic role in disease. Analysis of established type 2 diabetes risk loci revealed a striking clustering of distinct homeobox TFBS. We identified the PRRX1 homeobox factor as a repressor of PPARG2 expression in adipose cells and demonstrate its adverse effect on lipid metabolism and systemic insulin sensitivity, dependent on the rs4684847 risk allele that triggers PRRX1 binding. Thus, cross-species conservation analysis at the level of co-occurring TFBS provides a valuable contribution to the translation of genetic association signals to disease-related molecular mechanisms.",

author = "M Claussnitzer and SN Dankel and B Klocke and H Grallert and V Glunk and T Berulava and H Lee and N Oskolkov and J Fadista and K Ehlers and S Wahl and C Hoffmann and K Qian and T Ronn and H Riess and M Muller-Nurasyid and N Bretschneider and T Schroeder and T Skurk and B Horsthemke and D Spieler and M Klingenspor and M Seifert and MJ Kern and N Mejhert and I Dahlman and O Hansson and SM Hauck and M Bluher and P Arner and L Groop and T Illig and K Suhre and YH Hsu and G Mellgren and H Hauner and H Laumen",

year = "2014",

doi = "10.1016/j.cell.2013.10.058",

language = "Undefined/Unknown",

volume = "156",

pages = "343--358",

journal = "Cell",

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Claussnitzer, M, Dankel, SN, Klocke, B, Grallert, H, Glunk, V, Berulava, T, Lee, H, Oskolkov, N, Fadista, J, Ehlers, K, Wahl, S, Hoffmann, C, Qian, K, Ronn, T, Riess, H, Muller-Nurasyid, M, Bretschneider, N, Schroeder, T, Skurk, T, Horsthemke, B, Spieler, D, Klingenspor, M, Seifert, M, Kern, MJ, Mejhert, N, Dahlman, I, Hansson, O, Hauck, SM, Bluher, M, Arner, P, Groop, L, Illig, T, Suhre, K, Hsu, YH, Mellgren, G, Hauner, H & Laumen, H 2014, 'Leveraging Cross- Species Transcription Factor Binding Site Patterns: From Diabetes Risk Loci to Disease Mechanisms', Cell, vol. 156, no. 1-2, pp. 343-358. https://doi.org/10.1016/j.cell.2013.10.058

TY - JOUR

T1 - Leveraging Cross- Species Transcription Factor Binding Site Patterns: From Diabetes Risk Loci to Disease Mechanisms

AU - Claussnitzer, M

AU - Dankel, SN

AU - Klocke, B

AU - Grallert, H

AU - Glunk, V

AU - Berulava, T

AU - Lee, H

AU - Oskolkov, N

AU - Fadista, J

AU - Ehlers, K

AU - Wahl, S

AU - Hoffmann, C

AU - Qian, K

AU - Ronn, T

AU - Riess, H

AU - Muller-Nurasyid, M

AU - Bretschneider, N

AU - Schroeder, T

AU - Skurk, T

AU - Horsthemke, B

AU - Spieler, D

AU - Klingenspor, M

AU - Seifert, M

AU - Kern, MJ

AU - Mejhert, N

AU - Dahlman, I

AU - Hansson, O

AU - Hauck, SM

AU - Bluher, M

AU - Arner, P

AU - Groop, L

AU - Illig, T

AU - Suhre, K

AU - Hsu, YH

AU - Mellgren, G

AU - Hauner, H

AU - Laumen, H

PY - 2014

Y1 - 2014

N2 - Genome-wide association studies have revealed numerous risk loci associated with diverse diseases. However, identification of disease-causing variants within association loci remains a major challenge. Divergence in gene expression due to cis-regulatory variants in noncoding regions is central to disease susceptibility. We show that integrative computational analysis of phylogenetic conservation with a complexity assessment of co-occurring transcription factor binding sites (TFBS) can identify cis-regulatory variants and elucidate their mechanistic role in disease. Analysis of established type 2 diabetes risk loci revealed a striking clustering of distinct homeobox TFBS. We identified the PRRX1 homeobox factor as a repressor of PPARG2 expression in adipose cells and demonstrate its adverse effect on lipid metabolism and systemic insulin sensitivity, dependent on the rs4684847 risk allele that triggers PRRX1 binding. Thus, cross-species conservation analysis at the level of co-occurring TFBS provides a valuable contribution to the translation of genetic association signals to disease-related molecular mechanisms.

AB - Genome-wide association studies have revealed numerous risk loci associated with diverse diseases. However, identification of disease-causing variants within association loci remains a major challenge. Divergence in gene expression due to cis-regulatory variants in noncoding regions is central to disease susceptibility. We show that integrative computational analysis of phylogenetic conservation with a complexity assessment of co-occurring transcription factor binding sites (TFBS) can identify cis-regulatory variants and elucidate their mechanistic role in disease. Analysis of established type 2 diabetes risk loci revealed a striking clustering of distinct homeobox TFBS. We identified the PRRX1 homeobox factor as a repressor of PPARG2 expression in adipose cells and demonstrate its adverse effect on lipid metabolism and systemic insulin sensitivity, dependent on the rs4684847 risk allele that triggers PRRX1 binding. Thus, cross-species conservation analysis at the level of co-occurring TFBS provides a valuable contribution to the translation of genetic association signals to disease-related molecular mechanisms.

U2 - 10.1016/j.cell.2013.10.058

DO - 10.1016/j.cell.2013.10.058

M3 - Article

SN - 0092-8674

VL - 156

SP - 343

EP - 358

JO - Cell

JF - Cell

IS - 1-2

ER -