Early Renal Denervation Attenuates Cardiac Dysfunction in Heart Failure With Preserved Ejection Fraction

Jake E. Doiron; Zhen Li; Xiaoman Yu; Kyle B. Lapenna; Heather Quiriarte; Timothy D. Allerton; Kashyap Koul; Andrew Malek; Sanjiv J. Shah; Thomas E. Sharp; Traci T. Goodchild; Daniel R. Kapusta; David J. Lefer

doi:10.1161/JAHA.123.032646

Early Renal Denervation Attenuates Cardiac Dysfunction in Heart Failure With Preserved Ejection Fraction

Jake E. Doiron, Zhen Li, Xiaoman Yu, Kyle B. Lapenna, Heather Quiriarte, Timothy D. Allerton, Kashyap Koul, Andrew Malek, Sanjiv J. Shah, Thomas E. Sharp, Traci T. Goodchild, Daniel R. Kapusta, David J. Lefer^*

^*Corresponding author for this work

Medicine, Cardiology Division

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

6 Scopus citations

Abstract

BACKGROUND: The renal sympathetic nervous system modulates systemic blood pressure, cardiac performance, and renal function. Pathological increases in renal sympathetic nerve activity contribute to the pathogenesis of heart failure with preserved ejection fraction (HFpEF). We investigated the effects of renal sympathetic denervation performed at early or late stages of HFpEF progression. METHODS AND RESULTS: Male ZSF1 obese rats were subjected to radiofrequency renal denervation (RF-RDN) or sham procedure at either 8 weeks or 20 weeks of age and assessed for cardiovascular function, exercise capacity, and cardiorenal fibrosis. Renal norepinephrine and renal nerve tyrosine hydroxylase staining were performed to quantify denervation following RF-RDN. In addition, renal injury, oxidative stress, inflammation, and profibrotic biomarkers were evaluated to determine pathways associated with RDN. RF-RDN significantly reduced renal norepinephrine and tyrosine hydroxylase content in both study cohorts. RF-RDN therapy performed at 8 weeks of age attenuated cardiac dysfunction, reduced cardiorenal fibrosis, and improved endothelial-dependent vascular reactivity. These improvements were associated with reductions in renal injury markers, expression of renal NLR family pyrin domain containing 3/interleukin 1β, and expression of profibrotic mediators. RF-RDN failed to exert beneficial effects when administered in the 20-week-old HFpEF cohort. CONCLUSIONS: Our data demonstrate that early RF-RDN therapy protects against HFpEF disease progression in part due to the attenuation of renal fibrosis and inflammation. In contrast, the renoprotective and left ventricular functional improvements were lost when RF-RDN was performed in later HFpEF progression. These results suggest that RDN may be a viable treatment option for HFpEF during the early stages of this systemic inflammatory disease.

Original language	English (US)
Article number	e032646
Journal	Journal of the American Heart Association
Volume	13
Issue number	4
DOIs	https://doi.org/10.1161/JAHA.123.032646
State	Published - Feb 20 2024

Funding

The authors would like to acknowledge the Fink Laboratory at Michigan State University for their assistance in performing high-performance liquid chromatography analysis of renal tissue catecholamine levels acknowledge the Cell Biology and Bioimaging Core at Pennington Biomedical Research Center (National Institutes of Health [NIH] 8 P20-GM103538 and NIH 2P30-DK072476) for assistance with the histological studies in this investigation. These studies were supported by grants from the NIH (HL146098, HL146514, and HL151398 to D.J.L.; HL159428 to T.T.G.; AA029984 to T.E.S; and U54GM104940 and P20GM135002 to T.D.A.) and from the American Heart Association (award 20POST35200075 to Z.L.). J.E.D. was supported by the National Center for Advancing Translational Sciences of the National Institute of Health under award number TL1TR003016. These studies were supported by grants from the NIH (HL146098, HL146514, and HL151398 to D.J.L.; HL159428 to T.T.G.; AA029984 to T.E.S; and U54GM104940 and P20GM135002 to T.D.A.) and from the American Heart Association (award 20POST35200075 to Z.L.). J.E.D. was supported by the National Center for Advancing Translational Sciences of the National Institute of Health under award number TL1TR003016.

Keywords

HFpEF
NLRP3 inflammasome
heart failure
renal denervation
sympathetic nervous system

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1161/JAHA.123.032646

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Doiron, J. E., Li, Z., Yu, X., Lapenna, K. B., Quiriarte, H., Allerton, T. D., Koul, K., Malek, A., Shah, S. J., Sharp, T. E., Goodchild, T. T., Kapusta, D. R., & Lefer, D. J. (2024). Early Renal Denervation Attenuates Cardiac Dysfunction in Heart Failure With Preserved Ejection Fraction. Journal of the American Heart Association, 13(4), Article e032646. https://doi.org/10.1161/JAHA.123.032646

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title = "Early Renal Denervation Attenuates Cardiac Dysfunction in Heart Failure With Preserved Ejection Fraction",

abstract = "BACKGROUND: The renal sympathetic nervous system modulates systemic blood pressure, cardiac performance, and renal function. Pathological increases in renal sympathetic nerve activity contribute to the pathogenesis of heart failure with preserved ejection fraction (HFpEF). We investigated the effects of renal sympathetic denervation performed at early or late stages of HFpEF progression. METHODS AND RESULTS: Male ZSF1 obese rats were subjected to radiofrequency renal denervation (RF-RDN) or sham procedure at either 8 weeks or 20 weeks of age and assessed for cardiovascular function, exercise capacity, and cardiorenal fibrosis. Renal norepinephrine and renal nerve tyrosine hydroxylase staining were performed to quantify denervation following RF-RDN. In addition, renal injury, oxidative stress, inflammation, and profibrotic biomarkers were evaluated to determine pathways associated with RDN. RF-RDN significantly reduced renal norepinephrine and tyrosine hydroxylase content in both study cohorts. RF-RDN therapy performed at 8 weeks of age attenuated cardiac dysfunction, reduced cardiorenal fibrosis, and improved endothelial-dependent vascular reactivity. These improvements were associated with reductions in renal injury markers, expression of renal NLR family pyrin domain containing 3/interleukin 1β, and expression of profibrotic mediators. RF-RDN failed to exert beneficial effects when administered in the 20-week-old HFpEF cohort. CONCLUSIONS: Our data demonstrate that early RF-RDN therapy protects against HFpEF disease progression in part due to the attenuation of renal fibrosis and inflammation. In contrast, the renoprotective and left ventricular functional improvements were lost when RF-RDN was performed in later HFpEF progression. These results suggest that RDN may be a viable treatment option for HFpEF during the early stages of this systemic inflammatory disease.",

keywords = "HFpEF, NLRP3 inflammasome, heart failure, renal denervation, sympathetic nervous system",

author = "Doiron, {Jake E.} and Zhen Li and Xiaoman Yu and Lapenna, {Kyle B.} and Heather Quiriarte and Allerton, {Timothy D.} and Kashyap Koul and Andrew Malek and Shah, {Sanjiv J.} and Sharp, {Thomas E.} and Goodchild, {Traci T.} and Kapusta, {Daniel R.} and Lefer, {David J.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors.",

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doi = "10.1161/JAHA.123.032646",

language = "English (US)",

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T1 - Early Renal Denervation Attenuates Cardiac Dysfunction in Heart Failure With Preserved Ejection Fraction

AU - Doiron, Jake E.

AU - Li, Zhen

AU - Yu, Xiaoman

AU - Lapenna, Kyle B.

AU - Quiriarte, Heather

AU - Allerton, Timothy D.

AU - Koul, Kashyap

AU - Malek, Andrew

AU - Shah, Sanjiv J.

AU - Sharp, Thomas E.

AU - Goodchild, Traci T.

AU - Kapusta, Daniel R.

AU - Lefer, David J.

PY - 2024/2/20

Y1 - 2024/2/20

N2 - BACKGROUND: The renal sympathetic nervous system modulates systemic blood pressure, cardiac performance, and renal function. Pathological increases in renal sympathetic nerve activity contribute to the pathogenesis of heart failure with preserved ejection fraction (HFpEF). We investigated the effects of renal sympathetic denervation performed at early or late stages of HFpEF progression. METHODS AND RESULTS: Male ZSF1 obese rats were subjected to radiofrequency renal denervation (RF-RDN) or sham procedure at either 8 weeks or 20 weeks of age and assessed for cardiovascular function, exercise capacity, and cardiorenal fibrosis. Renal norepinephrine and renal nerve tyrosine hydroxylase staining were performed to quantify denervation following RF-RDN. In addition, renal injury, oxidative stress, inflammation, and profibrotic biomarkers were evaluated to determine pathways associated with RDN. RF-RDN significantly reduced renal norepinephrine and tyrosine hydroxylase content in both study cohorts. RF-RDN therapy performed at 8 weeks of age attenuated cardiac dysfunction, reduced cardiorenal fibrosis, and improved endothelial-dependent vascular reactivity. These improvements were associated with reductions in renal injury markers, expression of renal NLR family pyrin domain containing 3/interleukin 1β, and expression of profibrotic mediators. RF-RDN failed to exert beneficial effects when administered in the 20-week-old HFpEF cohort. CONCLUSIONS: Our data demonstrate that early RF-RDN therapy protects against HFpEF disease progression in part due to the attenuation of renal fibrosis and inflammation. In contrast, the renoprotective and left ventricular functional improvements were lost when RF-RDN was performed in later HFpEF progression. These results suggest that RDN may be a viable treatment option for HFpEF during the early stages of this systemic inflammatory disease.

AB - BACKGROUND: The renal sympathetic nervous system modulates systemic blood pressure, cardiac performance, and renal function. Pathological increases in renal sympathetic nerve activity contribute to the pathogenesis of heart failure with preserved ejection fraction (HFpEF). We investigated the effects of renal sympathetic denervation performed at early or late stages of HFpEF progression. METHODS AND RESULTS: Male ZSF1 obese rats were subjected to radiofrequency renal denervation (RF-RDN) or sham procedure at either 8 weeks or 20 weeks of age and assessed for cardiovascular function, exercise capacity, and cardiorenal fibrosis. Renal norepinephrine and renal nerve tyrosine hydroxylase staining were performed to quantify denervation following RF-RDN. In addition, renal injury, oxidative stress, inflammation, and profibrotic biomarkers were evaluated to determine pathways associated with RDN. RF-RDN significantly reduced renal norepinephrine and tyrosine hydroxylase content in both study cohorts. RF-RDN therapy performed at 8 weeks of age attenuated cardiac dysfunction, reduced cardiorenal fibrosis, and improved endothelial-dependent vascular reactivity. These improvements were associated with reductions in renal injury markers, expression of renal NLR family pyrin domain containing 3/interleukin 1β, and expression of profibrotic mediators. RF-RDN failed to exert beneficial effects when administered in the 20-week-old HFpEF cohort. CONCLUSIONS: Our data demonstrate that early RF-RDN therapy protects against HFpEF disease progression in part due to the attenuation of renal fibrosis and inflammation. In contrast, the renoprotective and left ventricular functional improvements were lost when RF-RDN was performed in later HFpEF progression. These results suggest that RDN may be a viable treatment option for HFpEF during the early stages of this systemic inflammatory disease.

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KW - NLRP3 inflammasome

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KW - renal denervation

KW - sympathetic nervous system

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Early Renal Denervation Attenuates Cardiac Dysfunction in Heart Failure With Preserved Ejection Fraction

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