{"title":"主动脉平滑肌 BK 通道对介导慢性间歇性缺氧引起的血管功能障碍的影响","authors":"Ping Zhang, Pengtao Zou, Xiao Huang, Xianghui Zeng, Songtao Liu, Yuanyuan Liu, Liang Shao","doi":"10.4196/kjpp.2024.28.5.469","DOIUrl":null,"url":null,"abstract":"<p><p>Chronic intermittent hypoxia (CIH) can lead to vascular dysfunction and increase the risk of cardiovascular diseases, cerebrovascular diseases, and arterial diseases. Nevertheless, mechanisms underlying CIH-induced vascular dysfunction remain unclear. Herein, this study analyzed the role of aortic smooth muscle calciumactivated potassium (BK) channels in CIH-induced vascular dysfunction. CIH models were established in rats and rat aortic smooth muscle cells (RASMCs). Hemodynamic parameters such as mean blood pressure (MBP), diastolic blood pressure (DBP), and systolic blood pressure (SBP) were measured in rats, along with an assessment of vascular tone. NO and ET-1 levels were detected in rat serum, and the levels of ET-1, NO, eNOS, p-eNOS, oxidative stress markers (ROS and MDA), and inflammatory factors (IL-6 and TNF-α) were tested in aortic tissues. The Ca<sup>2+</sup> concentration in RASMCs was investigated. The activity of BK channels (BKα and BKβ) was evaluated in aortic tissues and RASMCs. SBP, DBP, and MBP were elevated in CIH-treated rats, along with endothelial dysfunction, cellular edema and partial detachment of endothelial cells. BK channel activity was decreased in CIH-treated rats and RASMCs. BK channel activation increased eNOS, p-eNOS, and NO levels while lowering ET-1, ROS, MDA, IL-6, and TNF-α levels in CIH-treated rats. Ca<sup>2+</sup> concentration increased in RASMCs following CIH modeling, which was reversed by BK channel activation. BK channel inhibitor (Iberiotoxin) exacerbated CIH-induced vascular disorders and endothelial dysfunction. BK channel activation promoted vasorelaxation while suppressing vascular endothelial dysfunction, inflammation, and oxidative stress, thereby indirectly improving CIH-induced vascular dysfunction.</p>","PeriodicalId":54746,"journal":{"name":"Korean Journal of Physiology & Pharmacology","volume":"28 5","pages":"469-478"},"PeriodicalIF":1.6000,"publicationDate":"2024-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11361999/pdf/","citationCount":"0","resultStr":"{\"title\":\"Effect of aortic smooth muscle BK channels on mediating chronic intermittent hypoxia-induced vascular dysfunction.\",\"authors\":\"Ping Zhang, Pengtao Zou, Xiao Huang, Xianghui Zeng, Songtao Liu, Yuanyuan Liu, Liang Shao\",\"doi\":\"10.4196/kjpp.2024.28.5.469\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Chronic intermittent hypoxia (CIH) can lead to vascular dysfunction and increase the risk of cardiovascular diseases, cerebrovascular diseases, and arterial diseases. Nevertheless, mechanisms underlying CIH-induced vascular dysfunction remain unclear. Herein, this study analyzed the role of aortic smooth muscle calciumactivated potassium (BK) channels in CIH-induced vascular dysfunction. CIH models were established in rats and rat aortic smooth muscle cells (RASMCs). Hemodynamic parameters such as mean blood pressure (MBP), diastolic blood pressure (DBP), and systolic blood pressure (SBP) were measured in rats, along with an assessment of vascular tone. NO and ET-1 levels were detected in rat serum, and the levels of ET-1, NO, eNOS, p-eNOS, oxidative stress markers (ROS and MDA), and inflammatory factors (IL-6 and TNF-α) were tested in aortic tissues. The Ca<sup>2+</sup> concentration in RASMCs was investigated. The activity of BK channels (BKα and BKβ) was evaluated in aortic tissues and RASMCs. SBP, DBP, and MBP were elevated in CIH-treated rats, along with endothelial dysfunction, cellular edema and partial detachment of endothelial cells. BK channel activity was decreased in CIH-treated rats and RASMCs. BK channel activation increased eNOS, p-eNOS, and NO levels while lowering ET-1, ROS, MDA, IL-6, and TNF-α levels in CIH-treated rats. Ca<sup>2+</sup> concentration increased in RASMCs following CIH modeling, which was reversed by BK channel activation. BK channel inhibitor (Iberiotoxin) exacerbated CIH-induced vascular disorders and endothelial dysfunction. 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引用次数: 0
摘要
慢性间歇性缺氧(CIH)可导致血管功能障碍,并增加罹患心血管疾病、脑血管疾病和动脉疾病的风险。然而,CIH 诱导血管功能障碍的机制仍不清楚。在此,本研究分析了主动脉平滑肌钙激活钾(BK)通道在 CIH 诱导的血管功能障碍中的作用。研究人员在大鼠和大鼠主动脉平滑肌细胞(RASMCs)中建立了 CIH 模型。测量了大鼠的血液动力学参数,如平均血压(MBP)、舒张压(DBP)和收缩压(SBP),并评估了血管张力。检测了大鼠血清中的 NO 和 ET-1 水平,并检测了主动脉组织中的 ET-1、NO、eNOS、p-eNOS、氧化应激标志物(ROS 和 MDA)和炎症因子(IL-6 和 TNF-α)的水平。研究了 RASMCs 中的 Ca2+ 浓度。评估了主动脉组织和 RASMCs 中 BK 通道(BKα 和 BKβ)的活性。经 CIH 处理的大鼠 SBP、DBP 和 MBP 升高,同时伴有内皮功能障碍、细胞水肿和部分内皮细胞脱落。CIH 处理的大鼠和 RASMC 的 BK 通道活性降低。BK 通道激活增加了 eNOS、p-eNOS 和 NO 的水平,同时降低了 CIH 处理大鼠体内 ET-1、ROS、MDA、IL-6 和 TNF-α 的水平。CIH 建模后,RASMC 中 Ca2+ 浓度增加,BK 通道激活可逆转这种情况。BK 通道抑制剂(Iberiotoxin)加剧了 CIH 诱导的血管紊乱和内皮功能障碍。BK 通道激活可促进血管舒张,同时抑制血管内皮功能障碍、炎症和氧化应激,从而间接改善 CIH 诱导的血管功能障碍。
Effect of aortic smooth muscle BK channels on mediating chronic intermittent hypoxia-induced vascular dysfunction.
Chronic intermittent hypoxia (CIH) can lead to vascular dysfunction and increase the risk of cardiovascular diseases, cerebrovascular diseases, and arterial diseases. Nevertheless, mechanisms underlying CIH-induced vascular dysfunction remain unclear. Herein, this study analyzed the role of aortic smooth muscle calciumactivated potassium (BK) channels in CIH-induced vascular dysfunction. CIH models were established in rats and rat aortic smooth muscle cells (RASMCs). Hemodynamic parameters such as mean blood pressure (MBP), diastolic blood pressure (DBP), and systolic blood pressure (SBP) were measured in rats, along with an assessment of vascular tone. NO and ET-1 levels were detected in rat serum, and the levels of ET-1, NO, eNOS, p-eNOS, oxidative stress markers (ROS and MDA), and inflammatory factors (IL-6 and TNF-α) were tested in aortic tissues. The Ca2+ concentration in RASMCs was investigated. The activity of BK channels (BKα and BKβ) was evaluated in aortic tissues and RASMCs. SBP, DBP, and MBP were elevated in CIH-treated rats, along with endothelial dysfunction, cellular edema and partial detachment of endothelial cells. BK channel activity was decreased in CIH-treated rats and RASMCs. BK channel activation increased eNOS, p-eNOS, and NO levels while lowering ET-1, ROS, MDA, IL-6, and TNF-α levels in CIH-treated rats. Ca2+ concentration increased in RASMCs following CIH modeling, which was reversed by BK channel activation. BK channel inhibitor (Iberiotoxin) exacerbated CIH-induced vascular disorders and endothelial dysfunction. BK channel activation promoted vasorelaxation while suppressing vascular endothelial dysfunction, inflammation, and oxidative stress, thereby indirectly improving CIH-induced vascular dysfunction.
期刊介绍:
The Korean Journal of Physiology & Pharmacology (Korean J. Physiol. Pharmacol., KJPP) is the official journal of both the Korean Physiological Society (KPS) and the Korean Society of Pharmacology (KSP). The journal launched in 1997 and is published bi-monthly in English. KJPP publishes original, peer-reviewed, scientific research-based articles that report successful advances in physiology and pharmacology. KJPP welcomes the submission of all original research articles in the field of physiology and pharmacology, especially the new and innovative findings. The scope of researches includes the action mechanism, pharmacological effect, utilization, and interaction of chemicals with biological system as well as the development of new drug targets. Theoretical articles that use computational models for further understanding of the physiological or pharmacological processes are also welcomed. Investigative translational research articles on human disease with an emphasis on physiology or pharmacology are also invited. KJPP does not publish work on the actions of crude biological extracts of either unknown chemical composition (e.g. unpurified and unvalidated) or unknown concentration. Reviews are normally commissioned, but consideration will be given to unsolicited contributions. All papers accepted for publication in KJPP will appear simultaneously in the printed Journal and online.
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