终板器血管器官中神经元放电的改变导致达尔盐敏感性高血压。
Altered Neuronal Discharge in the Organum Vasculosum of the Lamina Terminalis Contributes to Dahl Salt-Sensitive Hypertension.
机构信息
Department of Neurobiology, University of Pittsburgh School of Medicine, PA.
出版信息
Hypertension. 2023 Apr;80(4):872-881. doi: 10.1161/HYPERTENSIONAHA.122.20798. Epub 2023 Feb 8.
BACKGROUND
Salt-sensitive hypertension in humans and experimental models is associated with higher plasma and cerebrospinal fluid sodium chloride (NaCl) concentrations. Changes in extracellular NaCl concentrations are sensed by specialized neurons in the organum vasculosum of the lamina terminalis (OVLT). Stimulation of OVLT neurons increases sympathetic nerve activity (SNA) and arterial blood pressure (ABP), whereas chronic activation produces hypertension. Therefore, the present study tested whether OVLT neuronal activity was elevated and contributed to SNA and ABP in salt-sensitive hypertension.
METHODS
Male Dahl salt-sensitive (Dahl S) and Dahl salt-resistant (Dahl R) rats were fed 0.1% or 4.0% NaCl diets for 3 to 4 weeks and used for single-unit recordings of OVLT neurons or simultaneous recording of multiple sympathetic nerves during pharmacological inhibition of the OVLT.
RESULTS
Plasma and cerebrospinal fluid Na+ and Cl- concentrations were higher in Dahl S rats fed 4% versus 0.1% or Dahl R rats fed either diet. In vivo single-unit recordings revealed a significantly higher discharge of NaCl-responsive OVLT neurons in Dahl S rats fed 4% versus 0.1% or Dahl R rats. Interestingly, intracarotid infusion of hypertonic NaCl evoked greater increases in OVLT neuronal discharge of Dahl S versus Dahl R rats regardless of NaCl diet. The activity of non-NaCl-responsive OVLT neurons was not different across strain or diets. Finally, inhibition of OVLT neurons by local injection of the gamma-aminobutyric acid agonist muscimol produced a greater decrease in renal SNA, splanchnic SNA, and ABP of Dahl S rats fed 4% versus 0.1% or Dahl R rats.
CONCLUSIONS
A high salt diet activates NaCl-responsive OVLT neurons to increase SNA and ABP in salt-sensitive hypertension.
背景
人类和实验模型中的盐敏感型高血压与较高的血浆和脑脊液氯化钠(NaCl)浓度有关。细胞外 NaCl 浓度的变化由终板器官中的特殊神经元感知。OVLT 神经元的刺激会增加交感神经活动(SNA)和动脉血压(ABP),而慢性激活会导致高血压。因此,本研究测试了 OVLT 神经元活动是否升高,并对盐敏感型高血压中的 SNA 和 ABP 有贡献。
方法
雄性达尔盐敏感型(Dahl S)和达尔盐抵抗型(Dahl R)大鼠分别喂食 0.1%或 4.0%NaCl 饮食 3 至 4 周,并用于 OVLT 神经元的单细胞记录或 OVLT 药理学抑制期间的多个交感神经的同时记录。
结果
Dahl S 大鼠喂食 4%NaCl 时的血浆和脑脊液 Na+和 Cl-浓度高于喂食 0.1%NaCl 或 Dahl R 大鼠喂食任一饮食的大鼠。体内单细胞记录显示,Dahl S 大鼠喂食 4%NaCl 时,对 NaCl 反应的 OVLT 神经元的放电明显更高,而 Dahl S 大鼠喂食 4%NaCl 时则高于 Dahl R 大鼠。有趣的是,无论 NaCl 饮食如何,颅内输注高渗 NaCl 都会引起 Dahl S 大鼠而非 Dahl R 大鼠 OVLT 神经元放电的更大增加。非 NaCl 反应性 OVLT 神经元的活性在不同品种或饮食之间没有差异。最后,通过局部注射 GABA 激动剂 muscimol 抑制 OVLT 神经元,会使喂食 4%NaCl 的 Dahl S 大鼠的肾脏 SNA、内脏 SNA 和 ABP 降低幅度大于喂食 0.1%NaCl 或 Dahl R 大鼠。
结论
高盐饮食激活 NaCl 反应性 OVLT 神经元,增加盐敏感型高血压中的 SNA 和 ABP。
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