脊髓损伤后雄性和雌性大鼠结肠肠神经系统的可塑性。

Plasticity of colonic enteric nervous system following spinal cord injury in male and female rats.

机构信息

Department of Neural and Behavioral Sciences, Penn State University College of Medicine, Hershey, Pennsylvania, USA.

出版信息

Neurogastroenterol Motil. 2023 Nov;35(11):e14646. doi: 10.1111/nmo.14646. Epub 2023 Jul 21.

DOI:10.1111/nmo.14646

PMID:37480186

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11298951/

Abstract

BACKGROUND

Neurogenic bowel is a dysmotility disorder following spinal cord injury (SCI) that negatively impacts quality of life, social integration, and physical health. Colonic transit is directly modulated by the enteric nervous system. Interstitial Cells of Cajal (ICC) distributed throughout the small intestine and colon serve as specialized pacemaker cells, generating rhythmic electrical slow waves within intestinal smooth muscle, or serve as an interface between smooth muscle cells and enteric motor neurons of the myenteric plexus. Interstitial Cells of Cajal loss has been reported for other preclinical models of dysmotility, and our previous experimental SCI study provided evidence of reduced excitatory and inhibitory enteric neuronal count and smooth muscle neural control.

METHODS

Immunohistochemistry for the ICC-specific marker c-Kit was utilized to examine neuromuscular remodeling of the distal colon in male and female rats with experimental SCI.

KEY RESULTS

Myenteric plexus ICC (ICC-MP) exhibited increased cell counts 3 days following SCI in male rats, but did not significantly increase in females until 3 weeks after SCI. On average, ICC-MP total primary arborization length increased significantly in male rats at 3-day, 3-week, and 6-week time points, whereas in females, this increase occurred most frequently at 6 weeks post-SCI. Conversely, circular muscle ICC (ICC-CM) did not demonstrate post-SCI changes.

CONCLUSIONS AND INFERENCES

These data demonstrate resiliency of the ICC-MP in neurogenic bowel following SCI, unlike seen in other related disease states. This plasticity underscores the need to further understand neuromuscular changes driving colonic dysmotility after SCI in order to advance therapeutic targets for neurogenic bowel treatment.

摘要

背景

神经源性肠道是脊髓损伤（SCI）后的一种运动障碍，会对生活质量、社会融合和身体健康产生负面影响。结肠转运直接受肠神经系统调节。分布在小肠和结肠中的 Cajal 间质细胞（ICC）作为专门的起搏细胞，在肠平滑肌内产生节律性电慢波，或作为平滑肌细胞与肌间神经丛的运动神经元之间的接口。其他运动障碍的临床前模型已报道 Cajal 间质细胞丢失，我们之前的实验性 SCI 研究提供了证据，表明兴奋性和抑制性肠神经元计数减少，以及平滑肌神经控制减弱。

方法

使用 ICC 特异性标志物 c-Kit 的免疫组织化学方法检查雄性和雌性实验性 SCI 大鼠的远端结肠的神经肌肉重塑。

主要结果

雄性大鼠 SCI 后 3 天，肌间神经丛 ICC（ICC-MP）的细胞计数增加，但雌性大鼠直到 SCI 后 3 周才显著增加。平均而言，雄性大鼠的 ICC-MP 总初级分支长度在 3 天、3 周和 6 周时间点显著增加，而在雌性大鼠中，这种增加最常发生在 SCI 后 6 周。相反，环形肌 ICC（ICC-CM）没有表现出 SCI 后的变化。

结论和推断

这些数据表明，在 SCI 后神经源性肠道中，ICC-MP 具有弹性，与其他相关疾病状态不同。这种可塑性强调需要进一步了解驱动 SCI 后结肠运动障碍的神经肌肉变化，以便为神经源性肠道治疗推进治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b090/11298951/f45cb1cb2d31/nihms-1990416-f0001.jpg

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脊髓损伤后雄性和雌性大鼠结肠肠神经系统的可塑性。

Plasticity of colonic enteric nervous system following spinal cord injury in male and female rats.

机构信息

出版信息

BACKGROUND

METHODS

KEY RESULTS

CONCLUSIONS AND INFERENCES

背景

方法

主要结果

结论和推断

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