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1
Novel clinical associations with specific C9ORF72 transcripts in patients with repeat expansions in C9ORF72.C9ORF72基因存在重复扩增的患者中,特定C9ORF72转录本的新型临床关联。
Acta Neuropathol. 2015 Dec;130(6):863-76. doi: 10.1007/s00401-015-1480-6. Epub 2015 Oct 5.
2
Cerebellar c9RAN proteins associate with clinical and neuropathological characteristics of C9ORF72 repeat expansion carriers.小脑c9RAN蛋白与C9ORF72重复扩增携带者的临床和神经病理学特征相关。
Acta Neuropathol. 2015 Oct;130(4):559-73. doi: 10.1007/s00401-015-1474-4. Epub 2015 Sep 8.
3
Association between repeat sizes and clinical and pathological characteristics in carriers of C9ORF72 repeat expansions (Xpansize-72): a cross-sectional cohort study.C9ORF72 重复扩增携带者的重复大小与临床和病理特征的相关性(Xpansize-72):一项横断面队列研究。
Lancet Neurol. 2013 Oct;12(10):978-88. doi: 10.1016/S1474-4422(13)70210-2. Epub 2013 Sep 5.
4
Quantitative analysis and clinico-pathological correlations of different dipeptide repeat protein pathologies in C9ORF72 mutation carriers.C9ORF72 突变携带者中不同二肽重复蛋白病理的定量分析及临床病理相关性研究。
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5
Elevated methylation levels, reduced expression levels, and frequent contractions in a clinical cohort of C9orf72 expansion carriers.在 C9orf72 扩增携带者的临床队列中,甲基化水平升高,表达水平降低,且频繁收缩。
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Antisense transcripts of the expanded C9ORF72 hexanucleotide repeat form nuclear RNA foci and undergo repeat-associated non-ATG translation in c9FTD/ALS.C9ORF72 六核苷酸重复扩增的反义转录本形成核 RNA 焦点,并在 c9FTD/ALS 中进行重复相关的非 ATG 翻译。
Acta Neuropathol. 2013 Dec;126(6):829-44. doi: 10.1007/s00401-013-1192-8. Epub 2013 Oct 16.
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Retention of hexanucleotide repeat-containing intron in C9orf72 mRNA: implications for the pathogenesis of ALS/FTD.六核苷酸重复内含子在 C9orf72 mRNA 中的保留:对 ALS/FTD 发病机制的影响。
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The clinical and pathological phenotype of C9ORF72 hexanucleotide repeat expansions.C9ORF72 六核苷酸重复扩展的临床和病理学表型。
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Reduced C9orf72 protein levels in frontal cortex of amyotrophic lateral sclerosis and frontotemporal degeneration brain with the C9ORF72 hexanucleotide repeat expansion.在患有C9ORF72六核苷酸重复扩增的肌萎缩侧索硬化症和额颞叶变性大脑的额叶皮质中,C9orf72蛋白水平降低。
Neurobiol Aging. 2014 Jul;35(7):1779.e5-1779.e13. doi: 10.1016/j.neurobiolaging.2014.01.016. Epub 2014 Jan 17.
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In-depth clinico-pathological examination of RNA foci in a large cohort of C9ORF72 expansion carriers.深入临床病理检查 C9ORF72 扩增携带者的 RNA 焦点。
Acta Neuropathol. 2017 Aug;134(2):255-269. doi: 10.1007/s00401-017-1725-7. Epub 2017 May 15.

引用本文的文献

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Aberrant splicing exonizes C9orf72 repeat expansion in ALS/FTD.异常剪接使C9orf72重复序列在肌萎缩侧索硬化症/额颞叶痴呆中发生外显子化。
Nat Neurosci. 2025 Aug 11. doi: 10.1038/s41593-025-02039-5.
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Schwann Cells in Neuromuscular Disorders: A Spotlight on Amyotrophic Lateral Sclerosis.神经肌肉疾病中的施万细胞:聚焦肌萎缩侧索硬化症
Cells. 2025 Jan 3;14(1):47. doi: 10.3390/cells14010047.
3
Targeted long-read sequencing to quantify methylation of the C9orf72 repeat expansion.靶向长读长测序以量化C9orf72重复扩增的甲基化水平。
Mol Neurodegener. 2024 Dec 21;19(1):99. doi: 10.1186/s13024-024-00790-0.
4
CRISPR/Cas13d targeting suppresses repeat-associated non-AUG translation of C9orf72 hexanucleotide repeat RNA.CRISPR/Cas13d 靶向抑制 C9orf72 六核苷酸重复 RNA 的重复相关非 AUG 翻译。
J Clin Invest. 2024 Sep 17;134(21):e179016. doi: 10.1172/JCI179016.
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C9orf72 controls hepatic lipid metabolism by regulating SREBP1 transport.C9orf72 通过调控 SREBP1 转运来控制肝脏脂质代谢。
Cell Death Differ. 2024 Aug;31(8):1070-1084. doi: 10.1038/s41418-024-01312-7. Epub 2024 May 30.
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Hippocampal aggregation signatures of pathogenic UBQLN2 in amyotrophic lateral sclerosis and frontotemporal dementia.亨廷顿病相关蛋白 2 引起的肌萎缩性侧索硬化症和额颞叶痴呆的海马聚集特征。
Brain. 2024 Oct 3;147(10):3547-3561. doi: 10.1093/brain/awae140.
7
Abundant transcriptomic alterations in the human cerebellum of patients with a C9orf72 repeat expansion.伴有 C9orf72 重复扩增的人类小脑转录组的大量改变。
Acta Neuropathol. 2024 Apr 19;147(1):73. doi: 10.1007/s00401-024-02720-2.
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Reversal of mutation-induced transcriptional dysregulation and pathology in cultured human neurons by allele-specific excision.通过等位基因特异性切除,逆转培养的人神经元中突变诱导的转录失调和病变。
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9
Validated assays for the quantification of C9orf72 human pathology.用于定量检测 C9orf72 人类病理学的经过验证的检测方法。
Sci Rep. 2024 Jan 8;14(1):828. doi: 10.1038/s41598-023-50667-3.
10
Aberrant splicing exonizes repeat expansion in ALS/FTD.异常剪接使肌萎缩侧索硬化症/额颞叶痴呆中的重复序列扩张外显化。
bioRxiv. 2023 Nov 14:2023.11.13.566896. doi: 10.1101/2023.11.13.566896.

本文引用的文献

1
Modifiers of C9orf72 dipeptide repeat toxicity connect nucleocytoplasmic transport defects to FTD/ALS.C9orf72二肽重复毒性的调节剂将核质运输缺陷与额颞叶痴呆/肌萎缩侧索硬化症联系起来。
Nat Neurosci. 2015 Sep;18(9):1226-9. doi: 10.1038/nn.4085.
2
GGGGCC repeat expansion in C9orf72 compromises nucleocytoplasmic transport.C9orf72基因中GGGGCC重复序列的扩增损害了核质运输。
Nature. 2015 Sep 3;525(7567):129-33. doi: 10.1038/nature14974. Epub 2015 Aug 26.
3
The C9orf72 repeat expansion disrupts nucleocytoplasmic transport.C9orf72基因重复扩增破坏核质运输。
Nature. 2015 Sep 3;525(7567):56-61. doi: 10.1038/nature14973. Epub 2015 Aug 26.
4
Isoform-specific antibodies reveal distinct subcellular localizations of C9orf72 in amyotrophic lateral sclerosis.同种型特异性抗体揭示了 C9orf72 在肌萎缩侧索硬化症中的不同亚细胞定位。
Ann Neurol. 2015 Oct;78(4):568-83. doi: 10.1002/ana.24469. Epub 2015 Aug 29.
5
Distribution of dipeptide repeat proteins in cellular models and C9orf72 mutation cases suggests link to transcriptional silencing.二肽重复蛋白在细胞模型和C9orf72突变病例中的分布表明其与转录沉默有关。
Acta Neuropathol. 2015 Oct;130(4):537-55. doi: 10.1007/s00401-015-1450-z. Epub 2015 Jun 18.
6
C9orf72 ablation in mice does not cause motor neuron degeneration or motor deficits.小鼠中C9orf72基因缺失不会导致运动神经元变性或运动功能缺陷。
Ann Neurol. 2015 Sep;78(3):426-38. doi: 10.1002/ana.24453. Epub 2015 Jul 3.
7
Neurodegeneration. C9ORF72 repeat expansions in mice cause TDP-43 pathology, neuronal loss, and behavioral deficits.神经退行性变。小鼠中C9ORF72重复序列扩增导致TDP - 43病理改变、神经元丢失和行为缺陷。
Science. 2015 Jun 5;348(6239):1151-4. doi: 10.1126/science.aaa9344. Epub 2015 May 14.
8
Genetic modifiers in carriers of repeat expansions in the C9ORF72 gene.C9ORF72基因重复扩增携带者中的遗传修饰因子。
Mol Neurodegener. 2014 Sep 20;9:38. doi: 10.1186/1750-1326-9-38.
9
Discovery of a biomarker and lead small molecules to target r(GGGGCC)-associated defects in c9FTD/ALS.发现一种生物标志物和靶向 r(GGGGCC)-相关缺陷的先导小分子治疗 c9FTD/ALS。
Neuron. 2014 Sep 3;83(5):1043-50. doi: 10.1016/j.neuron.2014.07.041. Epub 2014 Aug 14.
10
Brain distribution of dipeptide repeat proteins in frontotemporal lobar degeneration and motor neurone disease associated with expansions in C9ORF72.脑内二肽重复蛋白在额颞叶变性和运动神经元病伴 C9ORF72 基因扩增中的分布。
Acta Neuropathol Commun. 2014 Jun 20;2:70. doi: 10.1186/2051-5960-2-70.

C9ORF72基因存在重复扩增的患者中,特定C9ORF72转录本的新型临床关联。

Novel clinical associations with specific C9ORF72 transcripts in patients with repeat expansions in C9ORF72.

作者信息

van Blitterswijk Marka, Gendron Tania F, Baker Matthew C, DeJesus-Hernandez Mariely, Finch NiCole A, Brown Patricia H, Daughrity Lillian M, Murray Melissa E, Heckman Michael G, Jiang Jie, Lagier-Tourenne Clotilde, Edbauer Dieter, Cleveland Don W, Josephs Keith A, Parisi Joseph E, Knopman David S, Petersen Ronald C, Petrucelli Leonard, Boeve Bradley F, Graff-Radford Neill R, Boylan Kevin B, Dickson Dennis W, Rademakers Rosa

机构信息

Department of Neuroscience, Mayo Clinic, 4500 San Pablo Road, Jacksonville, FL, 32224, USA.

Division of Biomedical Statistics and Informatics, Mayo Clinic, 4500 San Pablo Road, Jacksonville, FL, 32224, USA.

出版信息

Acta Neuropathol. 2015 Dec;130(6):863-76. doi: 10.1007/s00401-015-1480-6. Epub 2015 Oct 5.

DOI:10.1007/s00401-015-1480-6
PMID:26437865
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4655160/
Abstract

The loss of chromosome 9 open reading frame 72 (C9ORF72) expression, associated with C9ORF72 repeat expansions, has not been examined systematically. Three C9ORF72 transcript variants have been described thus far; the GGGGCC repeat is located between two non-coding exons (exon 1a and exon 1b) in the promoter region of transcript variant 2 (NM_018325.4) or in the first intron of variant 1 (NM_145005.6) and variant 3 (NM_001256054.2). We studied C9ORF72 expression in expansion carriers (n = 56) for whom cerebellum and/or frontal cortex was available. Using quantitative real-time PCR and digital molecular barcoding techniques, we assessed total C9ORF72 transcripts, variant 1, variant 2, variant 3, and intron containing transcripts [upstream of the expansion (intron 1a) and downstream of the expansion (intron 1b)]; the latter were correlated with levels of poly(GP) and poly(GA) proteins aberrantly translated from the expansion as measured by immunoassay (n = 50). We detected a decrease in expansion carriers as compared to controls for total C9ORF72 transcripts, variant 1, and variant 2: the strongest association was observed for variant 2 (quantitative real-time PCR cerebellum: median 43 %, p = 1.26e-06, and frontal cortex: median 58 %, p = 1.11e-05; digital molecular barcoding cerebellum: median 31 %, p = 5.23e-10, and frontal cortex: median 53 %, p = 5.07e-10). Importantly, we revealed that variant 1 levels greater than the 25th percentile conferred a survival advantage [digital molecular barcoding cerebellum: hazard ratio (HR) 0.31, p = 0.003, and frontal cortex: HR 0.23, p = 0.0001]. When focusing on intron containing transcripts, analysis of the frontal cortex revealed an increase of potentially truncated transcripts in expansion carriers as compared to controls [digital molecular barcoding frontal cortex (intron 1a): median 272 %, p = 0.003], with the highest levels in patients pathologically diagnosed with frontotemporal lobar degeneration. In the cerebellum, our analysis suggested that transcripts were less likely to be truncated and, excitingly, we discovered that intron containing transcripts were associated with poly(GP) levels [digital molecular barcoding cerebellum (intron 1a): r = 0.33, p = 0.02, and (intron 1b): r = 0.49, p = 0.0004] and poly(GA) levels [digital molecular barcoding cerebellum (intron 1a): r = 0.34, p = 0.02, and (intron 1b): r = 0.38, p = 0.007]. In summary, we report decreased expression of specific C9ORF72 transcripts and provide support for the presence of truncated transcripts as well as pre-mRNAs that may serve as templates for RAN translation. We further show that higher C9ORF72 levels may have beneficial effects, which warrants caution in the development of new therapeutic approaches.

摘要

与9号染色体开放阅读框72(C9ORF72)重复扩增相关的C9ORF72表达缺失尚未得到系统研究。迄今为止,已描述了三种C9ORF72转录变体;GGGGCC重复序列位于转录变体2(NM_018325.4)启动子区域的两个非编码外显子(外显子1a和外显子1b)之间,或变体1(NM_145005.6)和变体3(NM_001256054.2)的第一个内含子中。我们研究了有小脑和/或额叶皮质样本的扩增携带者(n = 56)的C9ORF72表达。使用定量实时PCR和数字分子条形码技术,我们评估了总的C9ORF72转录本、变体1、变体2、变体3以及包含内含子的转录本[扩增上游(内含子1a)和扩增下游(内含子1b)];通过免疫测定法(n = 50)测定,后者与从扩增序列异常翻译的聚(GP)和聚(GA)蛋白水平相关。我们检测到与对照组相比,扩增携带者的总的C9ORF72转录本、变体1和变体2减少:变体2的相关性最强(定量实时PCR小脑:中位数43%,p = 1.26×10⁻⁶,额叶皮质:中位数58%,p = 1.11×10⁻⁵;数字分子条形码小脑:中位数31%,p = 5.23×10⁻¹⁰,额叶皮质:中位数53%,p = 5.07×10⁻¹⁰)。重要的是,我们发现变体1水平高于第25百分位数可带来生存优势[数字分子条形码小脑:风险比(HR)0.31,p = 0.003;额叶皮质:HR 0.23,p = 0.0001]。当关注包含内含子的转录本时,额叶皮质分析显示与对照组相比,扩增携带者中潜在截短转录本增加[数字分子条形码额叶皮质(内含子1a):中位数272%,p = 0.003],在病理诊断为额颞叶痴呆的患者中水平最高。在小脑中,我们的分析表明转录本被截短的可能性较小,令人兴奋的是,我们发现包含内含子的转录本与聚(GP)水平[数字分子条形码小脑(内含子1a):r = 0.33,p = 0.