确定患有小脑无营养不良症的阿拉伯马的全局基因表达趋势。

E Y Scott, M C T Penedo, J D Murray, C J Finno
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引用次数: 0

摘要

马小脑萎缩症(CA)是一种遗传性神经退行性疾病,会影响小脑的浦肯野神经元,导致阿拉伯马驹共济失调。CA的症状通常在马驹出生时或6个月大时首次出现。CA 为常染色体隐性遗传,与马 2 号染色体上的单核苷酸多态性 (SNP) 有关(13074277G>A),该多态性位于 TOE1 的第四外显子,在反义链上靠近 MUTYH。我们假设,利用 RNA-seq 来揭示 CA SNP 的功能性后果将能阐明 CA 表型的分子通路。我们在四匹受CA影响的马和五匹年龄匹配的未受影响的马的小脑组织中进行了RNA-seq(100 bp PE链特异性)。使用了三种差异基因表达(DE)分析管道(Tophat2/Cuffdiff2、Kallisto/EdgeR和Kallisto/Sleuth),所有三种管道在受CA影响的马匹中发现了151个重要的DE基因。TOE1(Log2(foldchange)= 0.92,p = 0.66)和 MUTYH(Log2(foldchange)= 1.13,p = 0.66)没有差异表达。在有差异表达的主要通路中,与钙稳态相关并在浦肯野神经元中特异表达的基因 CALB1(Log2(foldchange)=-1.7,p 2(foldchange)=-0.97,p 2(foldchange)=1.99,p 2(foldchange)=2.02,p 2(foldchange)=1.99,p 2(foldchange)=2.02。
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Defining Trends in Global Gene Expression in Arabian Horses with Cerebellar Abiotrophy.

Equine cerebellar abiotrophy (CA) is a hereditary neurodegenerative disease that affects the Purkinje neurons of the cerebellum and causes ataxia in Arabian foals. Signs of CA are typically first recognized either at birth to any time up to 6 months of age. CA is inherited as an autosomal recessive trait and is associated with a single nucleotide polymorphism (SNP) on equine chromosome 2 (13074277G>A), located in the fourth exon of TOE1 and in proximity to MUTYH on the antisense strand. We hypothesize that unraveling the functional consequences of the CA SNP using RNA-seq will elucidate the molecular pathways underlying the CA phenotype. RNA-seq (100 bp PE strand-specific) was performed in cerebellar tissue from four CA-affected and five age-matched unaffected horses. Three pipelines for differential gene expression (DE) analysis were used (Tophat2/Cuffdiff2, Kallisto/EdgeR, and Kallisto/Sleuth) with 151 significant DE genes identified by all three pipelines in CA-affected horses. TOE1 (Log2(foldchange) = 0.92, p = 0.66) and MUTYH (Log2(foldchange) = 1.13, p = 0.66) were not differentially expressed. Among the major pathways that were differentially expressed, genes associated with calcium homeostasis and specifically expressed in Purkinje neurons, CALB1 (Log2(foldchange) = -1.7, p < 0.01) and CA8 (Log2(foldchange) = -0.97, p < 0.01), were significantly down-regulated, confirming loss of Purkinje neurons. There was also a significant up-regulation of markers for microglial phagocytosis, TYROBP (Log2(foldchange) = 1.99, p < 0.01) and TREM2 (Log2(foldchange) = 2.02, p < 0.01). These findings reaffirm a loss of Purkinje neurons in CA-affected horses along with a potential secondary loss of granular neurons and activation of microglial cells.

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