中国组织工程研究

中国组织工程研究 ›› 2026, Vol. 30 ›› Issue (24): 6239-6246.doi: 10.12307/2026.172

• 组织构建实验造模 experimental modeling in tissue construction • 上一篇    下一篇

纤维蛋白1基因在阿尔茨海默病双敲除及双转基因小鼠海马中的甲基化改变

阮思蓓1,李  丽2,简  悦3,凌  凤1,唐明希1,4   

  1. 1西南医科大学附属医院病理科,四川省泸州市   646000;2泸州市第二人民医院病理科,四川省泸州市   646000;3西南医科大学基础医学院,四川省泸州市   646000;4雅安市人民医院(四川大学华西医院雅安医院)病理科、精准医学中心,四川省雅安市   625000
  • 收稿日期:2025-06-16 修回日期:2025-09-11 出版日期:2026-08-28 发布日期:2026-01-30
  • 通讯作者: 唐明希,博士,教授,硕士生导师,西南医科大学附属医院病理科,四川省泸州市 646000;雅安市人民医院(四川大学华西医院雅安医院)病理科、精准医学中心,四川省雅安市 625000
  • 作者简介:阮思蓓,1987年生,硕士,主治医师,主要从事神经退行性病变发病机制方面的研究。
  • 基金资助:
    西南医科大学(自然科学基金青年基金)(2019ZQN093),课题名称:中期阿尔茨海默病presenilin-1/presenilin-2双基因敲除小鼠海马组织Ptprd、Hnf4a基因甲基化改变鉴定,项目负责人:阮思蓓

Methylation alterations of Fbln1 gene in the hippocampus of PSEN1/PSEN2 double knockout and #br# APP/PS1 transgenic mice#br#

Ruan Sibei1, Li Li2, Jian Yue3, Ling Feng1, Tang Mingxi1, 4   

  1. 1Department of Pathology, The Affiliated Hospital of Southwest Medical University, Luzhou 646000, Sichuan Province, China; 2Department of Pathology, Luzhou Second People’s Hospital, Luzhou 646000, Sichuan Province, China; 3School of Basic Medicine, Southwest Medical University, Luzhou 646000, Sichuan Province, China; 4Department of Pathology, Precision Medicine Center, Yaan People’s Hospital (Yaan Hospital of West China Hospital, Sichuan University), Yaan 625000, Sichuan Province, China
  • Received:2025-06-16 Revised:2025-09-11 Online:2026-08-28 Published:2026-01-30
  • Contact: Tang Mingxi, MD, Professor, Master’s supervisor, Department of Pathology, The Affiliated Hospital of Southwest Medical University, Luzhou 646000, Sichuan Province, China; Department of Pathology, Precision Medicine Center, Yaan People’s Hospital (Yaan Hospital of West China Hospital, Sichuan University), Yaan 625000, Sichuan Province, China
  • About author:Ruan Sibei, MS, Attending Physician, Department of Pathology, The Affiliated Hospital of Southwest Medical University, Luzhou 646000, Sichuan Province, China
  • Supported by:
    Southwest Medical University (Natural Science Foundation for the Youth), No. 2019ZQN093 (to RSB)

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摘要:



文题释义:
阿尔茨海默病:是一种年龄依赖性的神经退行性病变,表现为进行性的记忆力下降、认知功能减退、学习和记忆新知识能力逐渐下降;进而导致执行力降低、人格改变;最终会完全丧失自理能力,给家庭和社会带来沉重负担。
PSEN1/PSEN2双基因敲除小鼠:通过基因工程技术敲除小鼠的与遗传性阿尔茨海默病相关的基因——PSEN1和PSEN2基因,进而使该小鼠表现出与阿尔茨海默症一致的随着月龄增加而发生的进行性神经细胞减少、记忆丧失的特点,从而用于研究阿尔茨海默症的发病机制、生物标志物等。

背景:阿尔茨海默病的病理主要表现为β-淀粉样蛋白异常沉积及tau蛋白神经纤维缠结,临床上常用的药物只能控制部分症状,尽管也做出了巨大努力来开发新的治疗阿尔茨海默病的药物,如针对β-淀粉样蛋白的靶向免疫疗法和β分泌酶抑制剂,但目前的临床试验并没有取得成功。
目的:观察纤维蛋白1基因在无β-淀粉样蛋白异常沉积的阿尔茨海默病PSEN1/PSEN2双基因敲除小鼠(dKO)及具有β-淀粉样蛋白异常沉积的APP/PS1双转基因小鼠(DTG)海马组织中的甲基化改变情况,探寻阿尔茨海默病非β-淀粉样蛋白异常沉积的相关机制及潜在靶标。
方法:分别选取9只雌性7月龄(早期阿尔茨海默病)及12月龄(中期阿尔茨海默病)dKO小鼠海马组织及同龄野生型小鼠作为对照,应用表观亚硫酸盐测序方法筛选出异常甲基化改变基因纤维蛋白1;运用亚硫酸氢盐单基因甲基化测序方法验证纤维蛋白1基因在中期dKO小鼠海马组织中甲基化状态的改变;利用RT-PCR及Western blot方法分别检测早期及中期dKO小鼠纤维蛋白1基因mRNA和蛋白表达水平,同时检测12月龄DTG小鼠的纤维蛋白1基因mRNA和蛋白表达水平;最后对比检测dKO小鼠和DTG小鼠纤维蛋白1和β-淀粉样蛋白的表达水平,同龄雌性野生型小鼠作为对照。
结果与结论:①表观亚硫酸盐测序显示中期阿尔茨海默病 dKO小鼠海马组织纤维蛋白1基因低甲基化且具有统计学意义(P < 0.05 ),早期虽然也呈低甲基化,但与野生型小鼠比无显著性差异(P > 0.05);亚硫酸氢盐单基因甲基化测序PCR检测结果同样验证了阿尔茨海默病中期dKO小鼠海马组织中纤维蛋白1基因呈现异常低甲基化状态;②早期阿尔茨海默病 dKO小鼠的纤维蛋白1基因的mRNA及蛋白表达水平与同龄野生型小鼠比无差异(P > 0.05,P > 0.05 );中期阿尔茨海默病dKO小鼠纤维蛋白1的mRNA水平及蛋白表达明显高于同龄野生型小鼠(t=5.336,P < 0.01;t=8.985,P < 0.01 ),而中期阿尔茨海默病DTG小鼠纤维蛋白1的mRNA及蛋白表达水平同样显著高于同龄野生型小鼠(t=4.151,P < 0.01;t=8.392,P < 0.01 ),但2个阿尔茨海默病动物模型中期的纤维蛋白1 mRNA及蛋白表达水平无差异(P > 0.05,P > 0.05 );③中期阿尔茨海默病dKO小鼠纤维蛋白1和β-淀粉样蛋白的蛋白表达水平之间无差异(P > 0.05),而中期DTG小鼠纤维蛋白1和β-淀粉样蛋白的蛋白表达水平之间差异有显著性意义(t=6.348,P < 0.01),表明纤维蛋白1基因除了在具有β-淀粉样蛋白沉积的DTG小鼠模型发挥作用外,在无β-淀粉样蛋白沉积的dKO小鼠中同样发挥作用,提示阿尔茨海默病的发生发展中可能还存在纤维蛋白1基因相关的作用机制;④纤维蛋白1基因甲基化改变可能参与dKO小鼠年龄依赖性神经退行性变,并且可能同时参与阿尔茨海默病的β-淀粉样蛋白异常沉积与非β-淀粉样蛋白沉积机制,为探究非β-淀粉样蛋白沉积相关机制及新的潜在靶标提供了新的思路与证据;纤维蛋白1作为一种衰老相关因素和新的靶标具有广阔的应用前景。
https://orcid.org/0000-0002-7695-7007 (阮思蓓) 


中国组织工程研究杂志出版内容重点:干细胞;骨髓干细胞;造血干细胞;脂肪干细胞;肿瘤干细胞;胚胎干细胞;脐带脐血干细胞;干细胞诱导;干细胞分化;组织工程

关键词: 纤维蛋白1基因, 甲基化, 阿尔茨海默病, dKO 小鼠, DTG小鼠, β-淀粉样蛋白

Abstract: BACKGROUND: The pathology of Alzheimer’s disease is primarily characterized by abnormal amyloid-β deposition and tau neurofibrillary tangles. Medications currently available can only control certain symptoms. Despite ongoing efforts to develop new treatments, such as targeted immunotherapy against amyloid-β and beta-secretase inhibitors, clinical trials have not yet shown success.
OBJECTIVE: To investigate the methylation changes of Fbln1 gene in the hippocampus of Alzheimer’s disease PSEN1/PSEN2 double gene knockout mice (dKO) without abnormal amyloid-β deposition and APP/PS1 double transgenic mice (DTG) with abnormal amyloid-β deposition, and to explore the mechanisms and potential targets related to Alzheimer’s disease without abnormal amyloid-β deposition.
METHODS: Nine female 7-month-old (early-stage Alzheimer’s disease) and 12-month-old (mid-stage Alzheimer’s disease) dKO mice were selected, along with age-matched wild-type mice as controls. The Fbln1 gene with abnormal methylation changes in the hippocampal tissue of these mice were identified using reduced representation bisulfite sequencing. The altered methylation status of the Fbln1 gene in the hippocampal tissue of mid-stage dKO mice was verified using bisulfite single-gene methylation sequencing. The mRNA and protein expression levels of the Fbln1 gene in early- and mid-stage dKO and 12-month-old DTG mice were detected using reverse transcription-polymerase chain reaction and Western blot methods, respectively. Finally, the expression levels of Fbln1 and amyloid-β in dKO and DTG mice were compared, with age-matched female wild-type mice serving as controls.
RESULTS AND CONCLUSION: (1) The significant hypomethylation of Fbln1 gene in the hippocampus of mid-stage Alzheimer’s disease dKO mice was detected by reduced representation bisulfite sequencing (P < 0.05). Although early-stage dKO mice also exhibited hypomethylation, there was no significant difference compared with wild-type mice (P > 0.05). The abnormal hypomethylation of the Fbln1 gene in the hippocampal tissue of mid-stage Alzheimer’s disease dKO mice was further validated by Bisulfite single-gene methylation sequencing. (2) The mRNA and protein expression levels of the Fbln1 gene in early-stage Alzheimer’s disease dKO mice were not significantly different from those in age-matched wild-type mice (P > 0.05). The mRNA levels and protein expression of Fbln1 in mid-stage Alzheimer’s disease dKO and DTG mice were significantly higher than those in age-matched wild-type mice (dKO: t = 5.336, 8.985, P < 0.01; DTG: t = 4.151, 8.392, P < 0.01), but there was no difference in the mRNA and protein expression levels of Fbln1 between the two mid-stage Alzheimer’s disease animal models (P > 0.05). (3) There was no difference in the protein expression levels of Fbln1 and amyloid-β between mid-stage Alzheimer’s disease dKO mice (P > 0.05), while there was a significant difference in the protein expression levels of Fbln1 and amyloid-β between mid-stage DTG mice (t = 6.348, P < 0.01), indicating that the Fbln1 gene plays a role not only in the DTG mouse model with amyloid-β deposition but also in dKO mice without amyloid-β deposition and there may be additional Fbln1 gene-related mechanisms involved in the development of Alzheimer’s disease. (4) Changes in Fbln1 gene methylation may be involved in age-dependent neurodegeneration in dKO mice and may simultaneously participate in both the amyloid-β abnormal deposition and non-amyloid-β deposition mechanisms in Alzheimer’s disease, providing new insights and evidence for exploring non-amyloid-β deposition-related mechanisms and new potential targets. Fbln1, an aging-related factor and new target, offers wide-ranging application prospects.


Key words: Fbln1 gene, methylation, Alzheimer’s disease, dKO mice, DTG mice, amyloid-β

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