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引用本文的文献

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Gut-Brain Interactions in Neuronal Ceroid Lipofuscinoses: A Systematic Review Beyond the Brain in Paediatric Dementias.神经元蜡样脂褐质沉积症中的肠-脑相互作用:小儿痴呆症中超越大脑的系统综述
Int J Mol Sci. 2025 Jul 25;26(15):7192. doi: 10.3390/ijms26157192.

人类和小鼠CLN3疾病中的肠神经系统退化,在小鼠中通过基因治疗得到改善。

Enteric nervous system degeneration in human and murine CLN3 disease, is ameliorated by gene therapy in mice.

作者信息

Ziółkowska Ewa A, Williams Letitia L, Jansen Matthew J, Wang Sophie H, Eultgen Elizabeth M, Sharma Jaiprakash, Sardiello Marco, Bradley Rebecca P, Whiteman Ineka T, Sands Mark S, Heuckeroth Robert O, Cooper Jonathan D

出版信息

bioRxiv. 2025 Jun 9:2025.01.29.635518. doi: 10.1101/2025.01.29.635518.

DOI:10.1101/2025.01.29.635518
PMID:39975385
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11838464/
Abstract

BACKGROUND AND AIMS

Severe gastrointestinal (GI) symptoms occur in people with CLN3 disease, a neurodegenerative disorder. If left untreated these GI symptoms compromise life quality and may contribute to death. We hypothesized GI symptoms in CLN3 disease are at least partially due to neurodegeneration in the enteric nervous system (ENS), the master regulator of bowel function.

METHODS

We examined the integrity of the ENS in human CLN3 autopsy small bowel and colon, and in CLN3 deficient ( ) mice. We performed detailed immunohistological analyses of enteric neurons and glia and assessed bowel transit times at multiple disease stages. We then tested the therapeutic potential of neonatal intravenous gene therapy (AAV9-hCLN3) to prevent bowel phenotypes in mice.

RESULTS

Human CLN3 bowel displayed a profound loss of enteric neurons and their neurites, with pathological effects upon enteric glia. mice had normal appearing ENS at 1 month of age, but then experienced progressive loss of both enteric neurons and glia accompanied by marked bowel distention, resembling the human CLN3 phenotype. Degenerative changes in mouse enteric neurons and glia were largely prevented by systemic neonatal delivery of AAV9-hCLN3 gene therapy, preventing bowel distention at disease endstage.

CONCLUSIONS

Our findings demonstrate that CLN3 deficiency profoundly damages enteric neurons and glia in both murine and human CLN3 disease, contributing to GI dysfunction. This study provides preclinical evidence that systemic gene therapy may effectively treat multiple aspects of bowel pathology, expanding the therapeutic landscape beyond the CNS.What you need to know.

BACKGROUND AND CONTEXT

Significant gastrointestinal (GI) symptoms are evident in many pediatric neurological conditions. We hypothesized that, in addition to central nervous system (CNS) effects, defects in the enteric nervous system (ENS) may underlie these GI symptoms in some neurodegenerative diseases. Revealing such defects would open up new opportunities for treating these life-limiting and debilitating symptoms.

NEW FINDINGS

The enteric nervous system is significantly impacted in human CLN3 disease, a feature that is recapitulated in CLN3 mice. Progressive enteric neurodegeneration in these mice follows a similar time course to neuron loss in the brain, resulting in severe bowel distention.Nevertheless, bowel distention and the majority of the pathology within the enteric nervous system can be mitigated via neonatal gene therapy.

LIMITATIONS

Our human data will need to be replicated in larger numbers of CLN3 cases, and methods will need to be developed to treat the human bowel, avoiding the risk of liver tumors.

IMPACT

These results reveal that a neurodegenerative disease previously thought to primarily affect the CNS, damages the bowel's enteric nervous system and that ENS degeneration can be prevented in mice by gene therapy. These data provide a new perspective on this pediatric disorder and may have relevance to other pediatric neurologic diseases.

LAY SUMMARY

The progressive loss of neurons in CLN3 disease is not confined to the brain but also occurs in the bowel enteric nervous system, contributing directly to GI dysfunction.Neurodegeneration in the enteric nervous system can be prevented by treating the bowel with gene therapy.

摘要

背景与目的

CLN3病是一种神经退行性疾病,患者会出现严重的胃肠道(GI)症状。若不治疗,这些胃肠道症状会损害生活质量,并可能导致死亡。我们推测,CLN3病中的胃肠道症状至少部分是由于肠神经系统(ENS)的神经退行性变所致,而肠神经系统是肠道功能的主要调节者。

方法

我们检查了CLN3病患者尸检小肠和结肠以及CLN3基因缺陷小鼠的肠神经系统完整性。我们对肠神经元和神经胶质细胞进行了详细的免疫组织学分析,并在多个疾病阶段评估了肠道转运时间。然后,我们测试了新生儿静脉注射基因疗法(AAV9-hCLN3)预防CLN3基因缺陷小鼠肠道表型的治疗潜力。

结果

CLN3病患者的肠道显示肠神经元及其神经突严重缺失,并对肠神经胶质细胞产生病理影响。CLN3基因缺陷小鼠在1月龄时肠神经系统外观正常,但随后肠神经元和神经胶质细胞逐渐丧失,同时伴有明显的肠道扩张,类似于CLN3病患者的表型。通过全身新生儿期给予AAV9-hCLN3基因疗法,可在很大程度上预防CLN3基因缺陷小鼠肠神经元和神经胶质细胞的退行性变化,防止疾病终末期的肠道扩张。

结论

我们的研究结果表明,CLN3基因缺陷在小鼠和人类CLN3病中均会严重损害肠神经元和神经胶质细胞,导致胃肠功能障碍。本研究提供了临床前证据,表明全身基因疗法可能有效治疗肠道病变的多个方面,拓展了中枢神经系统以外的治疗前景。你需要了解的内容。

背景与背景情况

许多儿科神经系统疾病中都存在明显的胃肠道(GI)症状。我们推测,除了中枢神经系统(CNS)的影响外,肠神经系统(ENS)的缺陷可能是某些神经退行性疾病中这些胃肠道症状的基础。揭示这些缺陷将为治疗这些危及生命和使人衰弱的症状带来新的机会。

新发现

肠神经系统在人类CLN3病中受到显著影响,这一特征在CLN3小鼠中也有体现。这些小鼠中肠神经的渐进性退变与大脑中神经元丢失的时间进程相似,导致严重肠道扩张。然而,通过新生儿基因疗法可以减轻肠道扩张以及肠神经系统内的大部分病理变化。

局限性

我们的人体数据需要在更多CLN3病例中进行重复验证,并且需要开发治疗人类肠道的方法,避免肝肿瘤风险。

影响

这些结果表明,一种先前认为主要影响中枢神经系统的神经退行性疾病会损害肠道的肠神经系统,并且基因疗法可以在小鼠中预防肠神经系统退变。这些数据为这种儿科疾病提供了新的视角,可能与其他儿科神经系统疾病相关。

简要概述

CLN3病中神经元的渐进性丧失不仅局限于大脑,也发生在肠道的肠神经系统中,直接导致胃肠功能障碍。通过基因疗法治疗肠道可以预防肠神经系统的神经退行性变。