Heightened sympathetic neuron activity and altered cardiomyocyte properties in spontaneously hypertensive rats during the postnatal period.

IF 2.8 4区 医学 Q2 NEUROSCIENCES
Marián Haburčák, Joshua Harrison, Melda M Buyukozturk, Surbhi Sona, Samuel Bates, Susan J Birren
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引用次数: 1

Abstract

The Spontaneously Hypertensive Rat (SHR) has increased sympathetic drive to the periphery that precedes and contributes to the development of high blood pressure, making it a useful model for the study of neurogenic hypertension. Comparisons to the normotensive Wistar Kyoto (WKY) rat have demonstrated altered active and intrinsic properties of SHR sympathetic neurons shortly before the onset of hypertension. Here we examine the structural and functional plasticity of postnatal SHR and WKY sympathetic neurons cultured alone or co-cultured with cardiomyocytes under conditions of limited extrinsic signaling. SHR neurons have an increased number of structural synaptic sites compared to age-matched WKY neurons, measured by the co-localization of presynaptic vesicular acetylcholine transporter and postsynaptic shank proteins. Whole cell recordings show that SHR neurons have a higher synaptic charge than WKY neurons, demonstrating that the increase in synaptic sites is associated with increased synaptic transmission. Differences in synaptic properties are not associated with altered firing rates between postnatal WKY and SHR neurons and are not influenced by interactions with target cardiomyocytes from either strain. Both SHR and WKY neurons show tonic firing patterns in our cultures, which are depleted of non-neuronal ganglionic cells and provide limited neurotrophic signaling. This suggests that the normal mature, phasic firing of sympathetic neurons requires extrinsic signaling, with potentially differential responses in the prehypertensive SHR, which have been reported to maintain tonic firing at later developmental stages. While cardiomyocytes do not drive neuronal differences in our cultures, SHR cardiomyocytes display decreased hypertrophy compared to WKY cells and altered responses to co-cultured sympathetic neurons. These experiments suggest that altered signaling in SHR neurons and cardiomyocytes contributes to changes in the cardiac-sympathetic circuit in prehypertensive rats as early as the postnatal period.

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产后自发性高血压大鼠交感神经元活动增强和心肌细胞特性改变。
自发性高血压大鼠(自发性高血压大鼠,SHR)的交感神经驱动增加,在高血压发生之前并促进了高血压的发展,使其成为研究神经源性高血压的有用模型。与血压正常的Wistar Kyoto (WKY)大鼠的比较表明,在高血压发作前不久,SHR交感神经元的活性和内在特性发生了改变。本文研究了在有限的外部信号条件下,单独培养或与心肌细胞共培养的出生后SHR和WKY交感神经元的结构和功能可塑性。与年龄匹配的WKY神经元相比,SHR神经元具有更多的结构突触位点,这是通过突触前囊泡乙酰胆碱转运蛋白和突触后柄蛋白的共定位来测量的。全细胞记录显示,SHR神经元比WKY神经元具有更高的突触电荷,表明突触位点的增加与突触传递的增加有关。突触特性的差异与出生后WKY和SHR神经元之间的放电率改变无关,也不受与两种品系的靶心肌细胞相互作用的影响。在我们的培养中,SHR和WKY神经元都表现出强直性放电模式,这些神经元的非神经元神经节细胞被耗尽,提供有限的神经营养信号。这表明交感神经元正常成熟的阶段性放电需要外部信号,在高血压前期SHR中存在潜在的差异反应,据报道,SHR在发育后期维持强直性放电。虽然在我们的培养中心肌细胞不驱动神经元差异,但与WKY细胞相比,SHR心肌细胞的肥厚减少,对共培养的交感神经元的反应也发生了改变。这些实验表明SHR神经元和心肌细胞信号的改变有助于早在产后高血压前期大鼠心交感神经回路的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.10
自引率
2.70%
发文量
74
审稿时长
14 weeks
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