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Transcriptome-Wide Analysis Identifies Novel Associations With Blood Pressure.


ABSTRACT: Hypertension represents a major cardiovascular risk factor. The pathophysiology of increased blood pressure (BP) is not yet completely understood. Transcriptome profiling offers possibilities to uncover genetics effects on BP. Based on 2 populations including 2549 individuals, a meta-analyses of monocytic transcriptome-wide profiles were performed to identify transcripts associated with BP. Replication was performed in 2 independent studies of whole-blood transcriptome data including 1990 individuals. For identified candidate genes, a direct link between long-term changes in BP and gene expression over time and by treatment with BP-lowering therapy was assessed. The predictive value of protein levels encoded by candidate genes for subsequent cardiovascular disease was investigated. Eight transcripts (CRIP1, MYADM, TIPARP, TSC22D3, CEBPA, F12, LMNA, and TPPP3) were identified jointly accounting for up to 13% (95% confidence interval, 8.7-16.2) of BP variability. Changes in CRIP1, MYADM, TIPARP, LMNA, TSC22D3, CEBPA, and TPPP3 expression associated with BP changes-among these, CRIP1 gene expression was additionally correlated to measures of cardiac hypertrophy. Assessment of circulating CRIP1 (cystein-rich protein 1) levels as biomarkers showed a strong association with increased risk for incident stroke (hazard ratio, 1.06; 95% confidence interval, 1.03-1.09; P=5.0×10-5). Our comprehensive analysis of global gene expression highlights 8 novel transcripts significantly associated with BP, providing a link between gene expression and BP. Translational approaches further established evidence for the potential use of CRIP1 as emerging disease-related biomarker.

SUBMITTER: Zeller T 

PROVIDER: S-EPMC5997260 | biostudies-literature | 2017 Oct

REPOSITORIES: biostudies-literature

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Transcriptome-Wide Analysis Identifies Novel Associations With Blood Pressure.

Zeller Tanja T   Schurmann Claudia C   Schramm Katharina K   Müller Christian C   Kwon Soonil S   Wild Philipp S PS   Teumer Alexander A   Herrington David D   Schillert Arne A   Iacoviello Licia L   Kratzer Adelheid A   Jagodzinski Annika A   Karakas Mahir M   Ding Jingzhong J   Neumann Johannes T JT   Kuulasmaa Kari K   Gieger Christian C   Kacprowski Tim T   Schnabel Renate B RB   Roden Michael M   Wahl Simone S   Rotter Jerome I JI   Ojeda Francisco F   Carstensen-Kirberg Maren M   Tregouet David-Alexandre DA   Dörr Marcus M   Meitinger Thomas T   Lackner Karl J KJ   Wolf Petra P   Felix Stephan B SB   Landmesser Ulf U   Costanzo Simona S   Ziegler Andreas A   Liu Yongmei Y   Völker Uwe U   Palmas Walter W   Prokisch Holger H   Guo Xiuqing X   Herder Christian C   Blankenberg Stefan S   Homuth Georg G  

Hypertension (Dallas, Tex. : 1979) 20170807 4


Hypertension represents a major cardiovascular risk factor. The pathophysiology of increased blood pressure (BP) is not yet completely understood. Transcriptome profiling offers possibilities to uncover genetics effects on BP. Based on 2 populations including 2549 individuals, a meta-analyses of monocytic transcriptome-wide profiles were performed to identify transcripts associated with BP. Replication was performed in 2 independent studies of whole-blood transcriptome data including 1990 indivi  ...[more]

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