A systems biology approach identifies the role of dysregulated PRDM6 in the development of hypertension

Kushan L. Gunawardhana; Lingjuan Hong; Trojan Rugira; Severin Uebbing; Joanna Kucharczak; Sameet Mehta; Dineth R. Karunamuni; Brenda Cabera-Mendoza; Renato Polimanti; James P. Noonan; Arya Mani

doi:10.1172/JCI160036

A systems biology approach identifies the role of dysregulated PRDM6 in the development of hypertension

Kushan L. Gunawardhana, Lingjuan Hong, Trojan Rugira, Severin Uebbing, Joanna Kucharczak, Sameet Mehta, Dineth R. Karunamuni, Brenda Cabera-Mendoza, Renato Polimanti, James P. Noonan, Arya Mani^*

^*Corresponding author for this work

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

Abstract

Genetic variants in the third intron of the PRDM6 gene have been associated with BP traits in multiple GWAS. By combining fine mapping, massively parallel reporter assays, and gene editing, we identified super enhancers that drive the expression of PRDM6 and are partly regulated by STAT1 as the causal variants for hypertension. The heterozygous disruption of Prdm6 in mice expressing Cre recombinase under the control of mouse smooth muscle cell protein 22-α promoter (Prdm6^fl/+ SM22-Cre) exhibited a markedly higher number of renin-producing cells in the kidneys at E18.5 compared with WT littermates and developed salt-induced systemic hypertension that was completely responsive to the renin inhibitor aliskiren. Strikingly, RNA-Seq analysis of the mouse aortas identified a network of PRDM6-regulated genes that are located in GWAS-associated loci for blood pressure, most notably Sox6, which modulates renin expression in the kidney. Accordingly, the smooth muscle cell–specific disruption of Sox6 in Prdm6^fl/+ SM22-Cre mice resulted in a dramatic reduction of renin. Fate mapping and histological studies also showed increased numbers of neural crest–derived cells accompanied by increased collagen deposition in the kidneys of Prdm6^fl/+ Wnt1Cre-ZsGreen1Cre mice compared with WT mice. These findings establish the role of PRDM6 as a regulator of renin-producing cell differentiation into smooth muscle cells and as an attractive target for the development of antihypertensive drugs.

Original language	English
Article number	e160036
Number of pages	21
Journal	Journal of Clinical Investigation
Volume	133
Issue number	4
DOIs	https://doi.org/10.1172/JCI160036
Publication status	Published - 15 Feb 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright: © 2023, Gunawardhana et al.

Funding

We thank Monique Lefebvre (Cleveland Clinic) for providing the Sox6fl/fl transgenic mice, and Michael Kashgarian and Asghar Ras-tegar (Yale University) for their input in interpreting the patholog- ical and physiological findings in the transgenic mice. This work was supported by grants from the National Institute of Health # RHL135767A to AM, the authors acknowledge the support of The George M. O’Brien Kidney Center at Yale led by Patricia Preisig for their assistance in invasive BP monitoring.

Funders	Funder number
National Institutes of Health	RHL135767A

Keywords

Origin
Promotes
Gene
Expression
Influencing blood-pressure
Rhythms

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10.1172/JCI160036

Cite this

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title = "A systems biology approach identifies the role of dysregulated PRDM6 in the development of hypertension",

abstract = "Genetic variants in the third intron of the PRDM6 gene have been associated with BP traits in multiple GWAS. By combining fine mapping, massively parallel reporter assays, and gene editing, we identified super enhancers that drive the expression of PRDM6 and are partly regulated by STAT1 as the causal variants for hypertension. The heterozygous disruption of Prdm6 in mice expressing Cre recombinase under the control of mouse smooth muscle cell protein 22-α promoter (Prdm6fl/+ SM22-Cre) exhibited a markedly higher number of renin-producing cells in the kidneys at E18.5 compared with WT littermates and developed salt-induced systemic hypertension that was completely responsive to the renin inhibitor aliskiren. Strikingly, RNA-Seq analysis of the mouse aortas identified a network of PRDM6-regulated genes that are located in GWAS-associated loci for blood pressure, most notably Sox6, which modulates renin expression in the kidney. Accordingly, the smooth muscle cell–specific disruption of Sox6 in Prdm6fl/+ SM22-Cre mice resulted in a dramatic reduction of renin. Fate mapping and histological studies also showed increased numbers of neural crest–derived cells accompanied by increased collagen deposition in the kidneys of Prdm6fl/+ Wnt1Cre-ZsGreen1Cre mice compared with WT mice. These findings establish the role of PRDM6 as a regulator of renin-producing cell differentiation into smooth muscle cells and as an attractive target for the development of antihypertensive drugs.",

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AU - Hong, Lingjuan

AU - Rugira, Trojan

AU - Uebbing, Severin

AU - Kucharczak, Joanna

AU - Mehta, Sameet

AU - Karunamuni, Dineth R.

AU - Cabera-Mendoza, Brenda

AU - Polimanti, Renato

AU - Noonan, James P.

AU - Mani, Arya

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AB - Genetic variants in the third intron of the PRDM6 gene have been associated with BP traits in multiple GWAS. By combining fine mapping, massively parallel reporter assays, and gene editing, we identified super enhancers that drive the expression of PRDM6 and are partly regulated by STAT1 as the causal variants for hypertension. The heterozygous disruption of Prdm6 in mice expressing Cre recombinase under the control of mouse smooth muscle cell protein 22-α promoter (Prdm6fl/+ SM22-Cre) exhibited a markedly higher number of renin-producing cells in the kidneys at E18.5 compared with WT littermates and developed salt-induced systemic hypertension that was completely responsive to the renin inhibitor aliskiren. Strikingly, RNA-Seq analysis of the mouse aortas identified a network of PRDM6-regulated genes that are located in GWAS-associated loci for blood pressure, most notably Sox6, which modulates renin expression in the kidney. Accordingly, the smooth muscle cell–specific disruption of Sox6 in Prdm6fl/+ SM22-Cre mice resulted in a dramatic reduction of renin. Fate mapping and histological studies also showed increased numbers of neural crest–derived cells accompanied by increased collagen deposition in the kidneys of Prdm6fl/+ Wnt1Cre-ZsGreen1Cre mice compared with WT mice. These findings establish the role of PRDM6 as a regulator of renin-producing cell differentiation into smooth muscle cells and as an attractive target for the development of antihypertensive drugs.

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A systems biology approach identifies the role of dysregulated PRDM6 in the development of hypertension

Abstract

Bibliographical note

Funding

Keywords

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