uN2CpolyG-mediated p65 nuclear sequestration suppresses the NF-κB-NLRP3 pathway in neuronal intranuclear inclusion disease.

IF 8.2 2区生物学 Q1 CELL BIOLOGY Cell Communication and Signaling Pub Date : 2025-02-07 DOI:10.1186/s12964-025-02079-1

Yu Shen, Kaiyan Jiang, Dandan Tan, Min Zhu, Yusen Qiu, Pencheng Huang, Wenquan Zou, Jianwen Deng, Zhaoxia Wang, Ying Xiong, Daojun Hong

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Abstract

Background: Neuronal intranuclear inclusion disease (NIID) is genetically linked to CGG repeat expansion in the 5'-untranslated region of the NOTCH2NLC gene, with nascent polyglycine-containing protein (uN2CpolyG) identified as a primary pathogenic factor. Emerging clinical evidence suggests that inflammation contributes to NIID pathogenesis, yet the underlying molecular mechanisms remain elusive. This study aimed to elucidate the molecular interaction between uN2CpolyG and the NF-κB-NLRP3 pathway.

Methods: Single-cell RNA sequencing was conducted on the skin tissues of NIID patients to assess changes in the expression of genes involved in inflammatory pathways. Cell models (HEK-293T and U87-MG) transfected with CGG_9/69/100 expansion vectors were used to investigate alterations in the NF-κB-NLRP3-autophagy pathway. Additionally, the therapeutic potential of NF-κB activators was evaluated in a Drosophila model with a CGG expansion knock-in.

Results: Single-cell sequencing revealed a significant reduction in the expression of NFKBIA, encoding NF-κB inhibitor alpha (IkBa), which facilitates the nuclear translocation of p65, a key NF-κB component. uN2CpolyG directly interacted with and sequestered p65 in nuclear inclusions, leading to reduced phosphorylated p65 (p-p65) levels. This sequestration significantly downregulated the NF-κB-NLRP3 pathway, impairing autophagy, as indicated by decreased LC3II/LC3I ratios. Treatment of CGG₁₀₀ cells with lipopolysaccharide (LPS) significantly increased p-p65, NLRP3, and LC3II/LC3I levels while reducing insoluble uN2CpolyG levels and intranuclear inclusions. In the Drosophila knock-in model, LPS significantly reduced the number of intranuclear inclusions and improved phenotypic manifestations.

Conclusions: This study revealed that uN2CpolyG directly interacts with and sequesters p65, thereby inhibiting the NF-κB-NLRP3 pathway and impairing autophagy. This mechanism highlights a novel therapeutic target for NIID and provides potentially broader insights into similar mechanisms in other neurodegenerative diseases characterized by misfolded protein aggregates.

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un2cpolyg介导的p65核隔离抑制神经元核内包涵病中NF-κB-NLRP3通路。

背景：神经元核内包涵病（NIID）与NOTCH2NLC基因5'-非翻译区CGG重复扩增有关，新生聚甘氨酸含蛋白（uN2CpolyG）被确定为主要致病因素。越来越多的临床证据表明，炎症有助于NIID的发病机制，但潜在的分子机制仍然难以捉摸。本研究旨在阐明uN2CpolyG与NF-κB-NLRP3通路的分子相互作用。方法：对NIID患者皮肤组织进行单细胞RNA测序，评估炎症通路相关基因的表达变化。采用转染CGG9/69/100扩增载体的细胞模型（HEK-293T和U87-MG）研究NF-κ b - nlrp3自噬通路的变化。此外，在具有CGG扩增敲入的果蝇模型中评估了NF-κB激活剂的治疗潜力。结果：单细胞测序显示NFKBIA的表达显著降低，NFKBIA编码NF-κB抑制剂α (IkBa)，促进NF-κB关键成分p65的核易位。uN2CpolyG直接与核包涵体中的p65相互作用并将其隔离，导致磷酸化p65 （p-p65）水平降低。LC3II/LC3I比值降低表明，这种隔离显著下调NF-κB-NLRP3通路，损害自噬。用脂多糖（LPS）处理CGG100细胞显著增加p-p65、NLRP3和LC3II/LC3I水平，同时降低不溶性uN2CpolyG水平和核内包裹体。在果蝇敲入模型中，LPS显著减少了核内包裹体的数量，改善了表型表现。结论：本研究发现uN2CpolyG直接与p65相互作用并隔离p65，从而抑制NF-κB-NLRP3通路，损害自噬。这一机制突出了NIID的一个新的治疗靶点，并为其他以错误折叠蛋白聚集体为特征的神经退行性疾病的类似机制提供了潜在的更广泛的见解。

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来源期刊

Cell Communication and Signaling CELL BIOLOGY-

CiteScore

11.00

自引率

0.00%

发文量

180

期刊介绍： Cell Communication and Signaling (CCS) is a peer-reviewed, open-access scientific journal that focuses on cellular signaling pathways in both normal and pathological conditions. It publishes original research, reviews, and commentaries, welcoming studies that utilize molecular, morphological, biochemical, structural, and cell biology approaches. CCS also encourages interdisciplinary work and innovative models, including in silico, in vitro, and in vivo approaches, to facilitate investigations of cell signaling pathways, networks, and behavior. Starting from January 2019, CCS is proud to announce its affiliation with the International Cell Death Society. The journal now encourages submissions covering all aspects of cell death, including apoptotic and non-apoptotic mechanisms, cell death in model systems, autophagy, clearance of dying cells, and the immunological and pathological consequences of dying cells in the tissue microenvironment.