Guy Perkins scite author profile

The sinoatrial node (SAN), the leading pacemaker region, generates electrical impulses that propagate throughout the heart. SAN dysfunction with bradyarrhythmia is well documented in heart failure (HF). However, the underlying mechanisms are not completely understood. Mitochondria are critical to cellular processes that determine the life or death of the cell. The release of Ca 2+ from the ryanodine receptors 2 (RyR2) on the sarcoplasmic reticulum (SR) at mitochondria–SR microdomains serves as the critical communication to match energy production to meet metabolic demands. Therefore, we tested the hypothesis that alterations in the mitochondria–SR connectomics contribute to SAN dysfunction in HF. We took advantage of a mouse model of chronic pressure overload–induced HF by transverse aortic constriction (TAC) and a SAN-specific CRISPR-Cas9–mediated knockdown of mitofusin-2 ( Mfn2 ), the mitochondria–SR tethering GTPase protein. TAC mice exhibited impaired cardiac function with HF, cardiac fibrosis, and profound SAN dysfunction. Ultrastructural imaging using electron microscope (EM) tomography revealed abnormal mitochondrial structure with increased mitochondria–SR distance. The expression of Mfn2 was significantly down-regulated and showed reduced colocalization with RyR2 in HF SAN cells. Indeed, SAN-specific Mfn2 knockdown led to alterations in the mitochondria–SR microdomains and SAN dysfunction. Finally, disruptions in the mitochondria–SR microdomains resulted in abnormal mitochondrial Ca 2+ handling, alterations in localized protein kinase A (PKA) activity, and impaired mitochondrial function in HF SAN cells. The current study provides insights into the role of mitochondria–SR microdomains in SAN automaticity and possible therapeutic targets for SAN dysfunction in HF patients.

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Three-Dimensional Reconstruction of Neuronal Mitochondria by Electron Tomography

Perkins

2017

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Abstract EC104: Mitochondrial Microdomain Disruption Results In Sinus Node Dysfunction In Heart Failure

Liu

Gopireddy

Perkins

et al. 2022

Circulation Research

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Introduction: Sinoatrial node (SAN), the leading pacemaker region, generates electrical impulses that propagate throughout the heart. SAN dysfunction with bradyarrhythmia is well documented in heart failure (HF). However, the underlying mechanisms are not entirely understood. Mitochondria are critical to cellular processes that determine life or death of the cell. Therefore, proper communication with the mitochondria is essential for normal cellular function. We tested the hypothesis that alterations in the mitochondria-sarcoplasmic reticulum (SR) connectomics underlie SAN dysfunction in HF. Methods: We took advantage of a mouse model of pressure-overload induced HF by transverse aortic constriction (TAC) and a SAN-specific CRISPR/Cas9 mediated gene silencing of mitofusin-2 ( Mfn2 ). Results: TAC mice exhibited impaired cardiac function with HF, cardiac fibrosis, and profound SAN dysfunction. Ultrastructural imaging using electron microscope (EM) tomography revealed abnormal mitochondrial structure with increased SR-mitochondria distance. The expression of the SR-mitochondria tether GTPase protein Mfn-2 was significantly down-regulated and showed reduced colocalization with ryanodine receptor (RyR2) in HF SAN cells. Indeed, SAN-specific gene silencing of Mfn-2 led to alterations in the mitochondrial-SR microdomains[MFN1] and SAN dysfunction. Finally, disruption in the mitochondrial-SR microdomains resulted in abnormal mitochondrial Ca 2+ handling, alterations in localized PKA activity, and impaired mitochondrial function in HF SAN cells. Conclusion: The study provides insight on the role of mitochondrial-SR microdomains in SAN automaticity and into possible therapeutic targets for SAN dysfunction in HF patients.

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Guy Perkins

Automatic detection of mitochondria from electron microscope tomography images: a curve fitting approach

Disruption of mitochondria–sarcoplasmic reticulum microdomain connectomics contributes to sinus node dysfunction in heart failure

Three-Dimensional Reconstruction of Neuronal Mitochondria by Electron Tomography

Abstract EC104: Mitochondrial Microdomain Disruption Results In Sinus Node Dysfunction In Heart Failure

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