CRISPR 敲低 Kcnq3 可减弱 M 电流并增加 NPY/AgRP 神经元的兴奋性，从而改变能量平衡。

CRISPR knockdown of Kcnq3 attenuates the M-current and increases excitability of NPY/AgRP neurons to alter energy balance.

机构信息

Department of Chemical Physiology and Biochemistry, Oregon Health and Science University, Portland, OR, 97239, USA.

出版信息

Mol Metab. 2021 Jul;49:101218. doi: 10.1016/j.molmet.2021.101218. Epub 2021 Mar 22.

DOI:10.1016/j.molmet.2021.101218

PMID:33766732

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8093934/

Abstract

OBJECTIVE

Arcuate nucleus neuropeptide Y/agouti-related peptide (NPY/AgRP) neurons drive ingestive behavior. The M-current, a subthreshold non-inactivating potassium current, plays a critical role in regulating NPY/AgRP neuronal excitability. Fasting decreases while 17β-estradiol increases the M-current by regulating the mRNA expression of Kcnq2, 3, and 5 (Kv7.2, 3, and 5) channel subunits. Incorporating KCNQ3 into heteromeric channels has been considered essential to generate a robust M-current. Therefore, we investigated the behavioral and physiological effects of selective Kcnq3 deletion from NPY/AgRP neurons.

METHODS

We used a single adeno-associated viral vector containing a recombinase-dependent Staphylococcus aureus Cas9 with a single-guide RNA to selectively delete Kcnq3 in NPY/AgRP neurons. Single-cell quantitative measurements of mRNA expression and whole-cell patch clamp experiments were conducted to validate the selective knockdown. Body weight, food intake, and locomotor activity were measured in male mice to assess disruptions in energy balance.

RESULTS

The virus reduced the expression of Kcnq3 mRNA without affecting Kcnq2 or Kcnq5. The M-current was attenuated, causing NPY/AgRP neurons to be more depolarized, exhibit a higher input resistance, and require less depolarizing current to fire action potentials, indicative of increased excitability. Although the resulting decrease in the M-current did not overtly alter ingestive behavior, it significantly reduced the locomotor activity as measured by open-field testing. Control mice on a high-fat diet exhibited an enhanced M-current and increased Kcnq2 and Kcnq3 expression, but the M-current remained significantly attenuated in KCNQ3 knockdown animals.

CONCLUSIONS

The M-current plays a critical role in modulating the intrinsic excitability of NPY/AgRP neurons that is essential for maintaining energy homeostasis.

摘要

目的

弓状核神经肽 Y/刺鼠相关肽（NPY/AgRP）神经元驱动摄食行为。背景：背景：M 电流是一种阈下非失活钾电流，在调节 NPY/AgRP 神经元兴奋性方面起着关键作用。禁食会降低，而 17β-雌二醇通过调节 Kv7.2、3 和 5（KCNQ2、3 和 5）通道亚基的 mRNA 表达来增加 M 电流。将 KCNQ3 整合到异源二聚体通道中被认为是产生强 M 电流所必需的。因此，我们研究了选择性敲除 NPY/AgRP 神经元中 Kcnq3 对行为和生理的影响。

方法

我们使用一种含有重组依赖型金黄色葡萄球菌 Cas9 和单导向 RNA 的单一腺相关病毒载体，选择性地敲除 NPY/AgRP 神经元中的 Kcnq3。通过单细胞定量测量 mRNA 表达和全细胞膜片钳实验来验证选择性敲低。在雄性小鼠中测量体重、食物摄入量和运动活性，以评估能量平衡的破坏。

结果

病毒降低了 Kcnq3 mRNA 的表达，而不影响 Kcnq2 或 Kcnq5。M 电流减弱，导致 NPY/AgRP 神经元更去极化，表现出更高的输入电阻，需要更少的去极化电流来引发动作电位，表明兴奋性增加。虽然由此导致的 M 电流减少并没有明显改变摄食行为，但它显著降低了通过旷场测试测量的运动活性。高脂肪饮食的对照小鼠表现出增强的 M 电流和增加的 Kcnq2 和 Kcnq3 表达，但在 KCNQ3 敲低动物中，M 电流仍然显著减弱。

结论

M 电流在调节 NPY/AgRP 神经元的固有兴奋性方面起着关键作用，这对于维持能量平衡是必不可少的。

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CRISPR 敲低 Kcnq3 可减弱 M 电流并增加 NPY/AgRP 神经元的兴奋性，从而改变能量平衡。

CRISPR knockdown of Kcnq3 attenuates the M-current and increases excitability of NPY/AgRP neurons to alter energy balance.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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