Cízková Alena, Stránecký Viktor, Ivánek Robert, Hartmannová Hana, Nosková Lenka, Piherová Lenka, Tesarová Markéta, Hansíková Hana, Honzík Tomás, Zeman Jirí, Divina Petr, Potocká Andrea, Paul Jan, Sperl Wolfgang, Mayr Johannes A, Seneca Sara, Houstĕk Josef, Kmoch Stanislav
Center for Applied Genomics, 1st Faculty of Medicine, Charles University, Prague, Czech Republic.
BMC Genomics. 2008 Jan 25;9:38. doi: 10.1186/1471-2164-9-38.
To strengthen research and differential diagnostics of mitochondrial disorders, we constructed and validated an oligonucleotide microarray (h-MitoArray) allowing expression analysis of 1632 human genes involved in mitochondrial biology, cell cycle regulation, signal transduction and apoptosis. Using h-MitoArray we analyzed gene expression profiles in 9 control and 13 fibroblast cell lines from patients with F1Fo ATP synthase deficiency consisting of 2 patients with mt9205deltaTA microdeletion and a genetically heterogeneous group of 11 patients with not yet characterized nuclear defects. Analysing gene expression profiles, we attempted to classify patients into expected defect specific subgroups, and subsequently reveal group specific compensatory changes, identify potential phenotype causing pathways and define candidate disease causing genes.
Molecular studies, in combination with unsupervised clustering methods, defined three subgroups of patient cell lines--M group with mtDNA mutation and N1 and N2 groups with nuclear defect. Comparison of expression profiles and functional annotation, gene enrichment and pathway analyses of differentially expressed genes revealed in the M group a transcription profile suggestive of synchronized suppression of mitochondrial biogenesis and G1/S arrest. The N1 group showed elevated expression of complex I and reduced expression of complexes III, V, and V-type ATP synthase subunit genes, reduced expression of genes involved in phosphorylation dependent signaling along MAPK, Jak-STAT, JNK, and p38 MAP kinase pathways, signs of activated apoptosis and oxidative stress resembling phenotype of premature senescent fibroblasts. No specific functionally meaningful changes, except of signs of activated apoptosis, were detected in the N2 group. Evaluation of individual gene expression profiles confirmed already known ATP6/ATP8 defect in patients from the M group and indicated several candidate disease causing genes for nuclear defects.
Our analysis showed that deficiency in the ATP synthase protein complex amount is generally accompanied by only minor changes in expression of ATP synthase related genes. It also suggested that the site (mtDNA vs nuclear DNA) and the severity (ATP synthase content) of the underlying defect have diverse effects on cellular gene expression phenotypes, which warrants further investigation of cell cycle regulatory and signal transduction pathways in other OXPHOS disorders and related pharmacological models.
为加强线粒体疾病的研究和鉴别诊断,我们构建并验证了一种寡核苷酸微阵列(h-MitoArray),可对1632个人类基因进行表达分析,这些基因涉及线粒体生物学、细胞周期调控、信号转导和细胞凋亡。我们使用h-MitoArray分析了9个对照和成纤维细胞系以及13个来自F1Fo ATP合酶缺乏症患者的成纤维细胞系的基因表达谱,其中包括2例mt9205deltaTA微缺失患者和11例核缺陷尚未明确的基因异质性患者。通过分析基因表达谱,我们试图将患者分类为预期的缺陷特异性亚组,随后揭示亚组特异性的代偿性变化,确定潜在的导致表型的途径并定义候选致病基因。
分子研究结合无监督聚类方法,定义了患者细胞系的三个亚组——具有线粒体DNA突变的M组以及具有核缺陷的N1和N2组。对表达谱进行比较,并对差异表达基因进行功能注释、基因富集和通路分析,结果显示M组的转录谱表明线粒体生物合成同步抑制和G1/S期阻滞。N1组显示复合体I表达升高,复合体III、V和V型ATP合酶亚基基因表达降低,参与沿丝裂原活化蛋白激酶(MAPK)、Jak-STAT、JNK和p38 MAP激酶途径的磷酸化依赖性信号传导的基因表达降低,出现活化的细胞凋亡和氧化应激迹象,类似于早衰成纤维细胞的表型。在N2组中,除了活化的细胞凋亡迹象外,未检测到其他特定的有功能意义的变化。对个体基因表达谱的评估证实了M组患者中已知的ATP6/ATP8缺陷,并指出了几个核缺陷的候选致病基因。
我们的分析表明,ATP合酶蛋白复合体数量的缺乏通常仅伴随着ATP合酶相关基因表达中的微小变化。这还表明潜在缺陷的位点(线粒体DNA与核DNA)和严重程度(ATP合酶含量)对细胞基因表达表型有不同影响,这值得在其他氧化磷酸化疾病和相关药理学模型中进一步研究细胞周期调控和信号转导途径。
