在转基因果蝇模型中研究人载脂蛋白E亚型对线粒体功能相关CLS和MINO基因表达水平的影响

Q4 Biochemistry, Genetics and Molecular Biology
Faraneh Aghaei, Samaneh Reiszadeh Jahromi
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引用次数: 0

摘要

阿尔茨海默病(AD)是一种以异常脂质代谢和线粒体功能障碍为特征的神经退行性疾病,其特征与线粒体相关的ER膜(MAM)有关。ApoE被认为是AD的主要危险因素。人ApoE有三种亚型,包括Apoε2、Apoε3和Apoε4。研究表明,ε4等位基因携带者比ε3等位基因载体患AD的风险更高。鉴于Apoε4是AD的主要危险因素,并且脂质代谢中的MAM功能障碍可能影响线粒体功能,我们评估了心磷脂合成酶(CLS)和甘油-3-磷酸酰基转移酶2(MINO)基因在AD果蝇模型中的表达模式。据我们所知,这是首次研究ApoE亚型对AD果蝇模型线粒体功能的影响。使用携带Apoε亚型的glazt2a.gal4.UAS.hapoe转基因苍蝇进行RNA提取。cDNA合成后,通过qRT-PCR测定靶基因(CLS和MINO)和管家基因(eEF1α)的mRNA表达水平。我们的研究结果没有显示,与对照组相比,载脂蛋白3和载脂蛋白4组的CLS和MINO表达水平显著降低。尽管这种减少在统计学上并不显著,但这种减少趋势表明脂质生物合成发生了某种破坏,并可能直接影响线粒体功能。尽管Apo4对AD发病机制的影响已经阐明,但Apo4介导AD进展的确切机制仍然未知。建议使用人类和AD动物模型研究ApoE亚型的生物学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigating the effect of human apolipoprotein E isoforms on expression level of CLS and MINO genes involved in mitochondrial function in transgenic Drosophila model

Alzheimer's disease (AD) is a neurodegenerative disorder characterized by aberrant lipid metabolism and mitochondrial dysfunction, features related to mitochondria-associated ER membranes (MAM). ApoE is recognized as the major AD risk factor. Human ApoE has three isoforms including Apoε2, Apoε3 and Apoε4. It has revealed that ε4 allele carriers are at higher risk of developing AD than ε3 allele carriers. Given that Apoε4 is a major AD risk factor and that MAM dysfunction in lipid metabolism may affect mitochondrial function, we assessed the expression pattern of cardiolipin synthetase (CLS) and glycerol-3-phosphate acyltransferase 2 (MINO) genes in Drosophila model of AD. To the best of our knowledge, this is the first study to investigate the effect of ApoE isoforms on mitochondrial function in Drosophila model of AD. RNA extraction was performed using glazt2a.gal4.UAS.hapoe transgenic flies harboring Apoε isoforms. Following cDNA synthesis, mRNA expression levels of target (CLS and MINO) and housekeeping (eEF1α) genes were measured by qRT-PCR. Our results did not show a significant decrease in CLS and MINO expression level in Apoɛ3 and Apoɛ4 groups as compared to the control. Although this reduction was not statistically significant, the decreasing trend indicates a kind of disruption in lipid biosynthesis and may directly affect mitochondrial function. Though the impact of Apoɛ4 on AD pathogenesis has been elucidated, the exact mechanism through which Apoɛ4 mediates AD progression is still unknown. Investigating the biology of ApoE isoforms using both human and AD animal models is recommended.

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来源期刊
Animal Gene
Animal Gene Agricultural and Biological Sciences-Insect Science
自引率
0.00%
发文量
16
期刊介绍: Gene Reports publishes papers that focus on the regulation, expression, function and evolution of genes in all biological contexts, including all prokaryotic and eukaryotic organisms, as well as viruses. Gene Reports strives to be a very diverse journal and topics in all fields will be considered for publication. Although not limited to the following, some general topics include: DNA Organization, Replication & Evolution -Focus on genomic DNA (chromosomal organization, comparative genomics, DNA replication, DNA repair, mobile DNA, mitochondrial DNA, chloroplast DNA). Expression & Function - Focus on functional RNAs (microRNAs, tRNAs, rRNAs, mRNA splicing, alternative polyadenylation) Regulation - Focus on processes that mediate gene-read out (epigenetics, chromatin, histone code, transcription, translation, protein degradation). Cell Signaling - Focus on mechanisms that control information flow into the nucleus to control gene expression (kinase and phosphatase pathways controlled by extra-cellular ligands, Wnt, Notch, TGFbeta/BMPs, FGFs, IGFs etc.) Profiling of gene expression and genetic variation - Focus on high throughput approaches (e.g., DeepSeq, ChIP-Seq, Affymetrix microarrays, proteomics) that define gene regulatory circuitry, molecular pathways and protein/protein networks. Genetics - Focus on development in model organisms (e.g., mouse, frog, fruit fly, worm), human genetic variation, population genetics, as well as agricultural and veterinary genetics. Molecular Pathology & Regenerative Medicine - Focus on the deregulation of molecular processes in human diseases and mechanisms supporting regeneration of tissues through pluripotent or multipotent stem cells.
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