利钠肽受体 B 通过环鸟苷酸介导的信号转导维持心率和窦房结功能。

Natriuretic peptide receptor B maintains heart rate and sinoatrial node function via cyclic GMP-mediated signalling.

机构信息

Department of Cardiac Sciences, Department of Physiology and Pharmacology, Libin Cardiovascular Institute, Cumming School of Medicine, University of Calgary, GAC66, Health Research Innovation Centre, 3280 Hospital Drive N.W., Calgary, AB T2N 4Z6, Canada.

Department of Physiology and Biophysics, Faculty of Medicine, Dalhousie University, Halifax, NS, Canada.

出版信息

Cardiovasc Res. 2022 Jun 29;118(8):1917-1931. doi: 10.1093/cvr/cvab245.

DOI:10.1093/cvr/cvab245

PMID:34273155

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9239581/

Abstract

AIMS

Heart rate (HR) is a critical indicator of cardiac performance that is determined by sinoatrial node (SAN) function and regulation. Natriuretic peptides, including C-type NP (CNP), have been shown to modulate ion channel function in the SAN when applied exogenously. CNP is the only NP that acts as a ligand for natriuretic peptide receptor-B (NPR-B). Despite these properties, the ability of CNP and NPR-B to regulate HR and intrinsic SAN automaticity in vivo, and the mechanisms by which it does so, are incompletely understood. Thus, the objective of this study was to determine the role of NPR-B signalling in regulating HR and SAN function.

METHODS AND RESULTS

We have used NPR-B deficient mice (NPR-B+/-) to study HR regulation and SAN function using telemetry in conscious mice, intracardiac electrophysiology in anaesthetized mice, high-resolution optical mapping in isolated SAN preparations, patch-clamping in isolated SAN myocytes, and molecular biology in isolated SAN tissue. These studies demonstrate that NPR-B+/- mice exhibit slow HR, increased corrected SAN recovery time, and slowed SAN conduction. Spontaneous AP firing frequency in isolated SAN myocytes was impaired in NPR-B+/- mice due to reductions in the hyperpolarization activated current (If) and L-type Ca2+ current (ICa,L). If and ICa,L were reduced due to lower cGMP levels and increased hydrolysis of cAMP by phosphodiesterase 3 (PDE3) in the SAN. Inhibiting PDE3 or restoring cGMP signalling via application of 8-Br-cGMP abolished the reductions in cAMP, AP firing, If, and ICa,L, and normalized SAN conduction, in the SAN in NPR-B+/- mice. NPR-B+/- mice did not exhibit changes in SAN fibrosis and showed no evidence of cardiac hypertrophy or changes in ventricular function.

CONCLUSIONS

NPR-B plays an essential physiological role in maintaining normal HR and SAN function by modulating ion channel function in SAN myocytes via a cGMP/PDE3/cAMP signalling mechanism.

摘要

目的

心率（HR）是心脏功能的关键指标，由窦房结（SAN）功能和调节决定。已显示，当外源性施加时，利钠肽，包括 C 型 NP（CNP），可调节 SAN 中的离子通道功能。CNP 是唯一一种作为利钠肽受体-B（NPR-B）配体的 NP。尽管具有这些特性，但 CNP 和 NPR-B 调节体内 HR 和 SAN 自发性的能力及其作用机制仍不完全清楚。因此，本研究的目的是确定 NPR-B 信号在调节 HR 和 SAN 功能中的作用。

方法和结果

我们使用 NPR-B 缺陷型小鼠（NPR-B+/-）通过在清醒小鼠中使用遥测技术、在麻醉小鼠中进行心内电生理学、在分离的 SAN 制剂中进行高分辨率光学映射、在分离的 SAN 心肌细胞中进行膜片钳以及在分离的 SAN 组织中进行分子生物学研究来研究 HR 调节和 SAN 功能。这些研究表明，NPR-B+/- 小鼠表现出缓慢的 HR、校正 SAN 恢复时间延长和 SAN 传导减慢。由于超极化激活电流（If）和 L 型 Ca2+电流（ICa，L）减少，分离的 SAN 心肌细胞中的自发 AP 发射频率受损在 NPR-B+/- 小鼠中。由于 SAN 中的 cGMP 水平降低和磷酸二酯酶 3（PDE3）对 cAMP 的水解增加，If 和 ICa，L 减少。通过应用 8-Br-cGMP 抑制 PDE3 或恢复 cGMP 信号消除了 NPR-B+/- 小鼠中 cAMP、AP 发射、If 和 ICa，L 的减少，并使 SAN 传导正常化。NPR-B+/- 小鼠SAN 纤维化没有变化，没有表现出 SAN 功能障碍或心室功能改变的证据。

结论

NPR-B 通过 cGMP/PDE3/cAMP 信号机制调节 SAN 心肌细胞中的离子通道功能，在维持正常 HR 和 SAN 功能方面发挥着重要的生理作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ae0/9239581/f21be3ae2c21/cvab245ga1.jpg

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利钠肽受体 B 通过环鸟苷酸介导的信号转导维持心率和窦房结功能。

Natriuretic peptide receptor B maintains heart rate and sinoatrial node function via cyclic GMP-mediated signalling.

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSIONS

目的

方法和结果

结论

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