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Mutated CaV2.1 channels dysregulate CASK/P2X3 signaling in mouse trigeminal sensory neurons of R192Q Cacna1a knock-in mice

机译：突变的CaV2.1通道在R192Q Cacna1a敲入小鼠的小鼠三叉感觉神经元中失调CASK / P2X3信号

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Background: ATP-gated P2X3 receptors of sensory ganglion neurons are important transducers of pain as they adapt their expression and function in response to acute and chronic nociceptive signals. The present study investigated the role of calcium/calmodulin-dependent serine protein kinase (CASK) in controlling P2X3 receptor expression and function in trigeminal ganglia from Cacna1a R192Q-mutated knock-in (KI) mice, a genetic model for familial hemiplegic migraine type-1.Results: KI ganglion neurons showed more abundant CASK/P2X3 receptor complex at membrane level, a result that likely originated from gain-of-function effects of R192Q-mutated CaV2.1 channels and downstream enhanced CaMKII activity. The selective CaV2.1 channel blocker ω-Agatoxin IVA and the CaMKII inhibitor KN-93 were sufficient to return CASK/P2X3 co-expression to WT levels. After CASK silencing, P2X3 receptor expression was decreased in both WT and KI ganglia, supporting the role of CASK in P2X3 receptor stabilization. This process was functionally observed as reduced P2X3 receptor currents.Conclusions: We propose that, in trigeminal sensory neurons, the CASK/P2X3 complex has a dynamic nature depending on intracellular calcium and related signaling, that are enhanced in a transgenic mouse model of genetic hemiplegic migraine. © 2013 Gnanasekaran et al.; licensee BioMed Central Ltd.

机译：背景：感觉神经节神经元的ATP门控P2X3受体是疼痛的重要转导者，因为它们响应急性和慢性伤害信号而适应其表达和功能。本研究调查了钙/钙调蛋白依赖性丝氨酸蛋白激酶（CASK）在控制Cacna1a R192Q突变敲入（KI）小鼠的三叉神经节中P2X3受体表达和功能中的作用，该小鼠是家族性偏瘫偏头痛类型的遗传模型1.结果：KI神经节神经元在膜水平上显示出更丰富的CASK / P2X3受体复合物，其结果可能源自R192Q突变的CaV2.1通道的功能获得效应和下游增强的CaMKII活性。选择性CaV2.1通道阻滞剂ω-AgatoxinIVA和CaMKII抑制剂KN-93足以使CASK / P2X3共表达回到WT水平。在CASK沉默后，WT和KI神经节中的P2X3受体表达均降低，从而支持CASK在P2X3受体稳定中的作用。结论：我们认为，在三叉神经感觉神经元中，CASK / P2X3复合物具有动态性质，取决于细胞内钙和相关信号传导，在遗传性偏瘫转基因小鼠模型中增强了这一过程。偏头痛。 ©2013 Gnanasekaran等；被许可人BioMed Central Ltd.

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Gnanasekaran A; Bele T; Hullugundi S; Simonetti M; Ferrari M. D.; van den Maadgdenberg A; Nistri A; Fabbretti E;
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1. Mutated CaV2.1 channels dysregulate CASK/P2X3 signaling in mouse trigeminal sensory neurons of R192Q Cacna1a knock-in mice [J] . Aswini Gnanasekaran, Tanja Bele, Swathi Hullugundi, Molecular Pain . 2013,第1期

机译：突变的CaV2.1通道在R192Q Cacna1a敲入小鼠的小鼠三叉感觉神经元中失调CASK / P2X3信号
2. Mutated Ca_V2.1 channels dysregulate CASK/P2X3 signaling in mouse trigeminal sensory neurons of R192Q Cacna1a knock-in mice [J] . Aswini Gnanasekaran, Tanja Bele, Swathi Hullugundi, Molecular pain . 2013,第3期

机译：突变的Ca _{V 2.1通道在R192Q Cacna1a敲入小鼠的小鼠三叉感觉神经元中失调CASK / P2X3信号。}
3. Effects of LPS on P2X3 receptors of trigeminal sensory neurons and macrophages from mice expressing the R192Q Emphasis Type="Italic"Cacna1a/Emphasis gene mutation of familial hemiplegic migraine-1 [J] . Alessia Franceschini, Swathi K. Hullugundi, Arn M. J. M. van den Maagdenberg, Purinergic signalling . 2013,第1期

机译：LPS对表达家族性偏瘫偏头痛R192Q Cacna1a 基因突变的小鼠三叉神经感觉神经元和巨噬细胞P2X3受体的影响
4. A role of potassium channels in sensory signaling in the mouse inner ear. [D] . Risner, Jessica Ruth. 2008

机译：钾通道在小鼠内耳的感觉信号传导中的作用。
5. Mutated CaV2.1 channels dysregulate CASK/P2X3 signaling in mouse trigeminal sensory neurons of R192Q Cacna1a knock-in mice [O] . Aswini Gnanasekaran, Tanja Bele, Swathi Hullugundi, 2013

机译：突变的CaV2.1通道在R192Q Cacna1a敲入小鼠的小鼠三叉感觉神经元中失调CASK / P2X3信号
6. Mutated Ca2.1 channels dysregulate CASK/P2X3 signaling in mouse trigeminal sensory neurons of R192Q Cacna1a knock-in mice [O] . 2013

机译：突变的Ca2.1通道在R192Q Cacna1a敲入小鼠的小鼠三叉感觉神经元中失调CASK / P2X3信号

Mutated CaV2.1 channels dysregulate CASK/P2X3 signaling in mouse trigeminal sensory neurons of R192Q Cacna1a knock-in mice

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