Department of Pharmacology, Vanderbilt University, Nashville, TN 37232, USA.
Neurobiol Dis. 2012 Jan;45(1):37-47. doi: 10.1016/j.nbd.2011.01.025. Epub 2011 Feb 17.
Gene expression studies of bipolar disorder (BPD) have shown changes in transcriptome profiles in multiple brain regions. Here we summarize the most consistent findings in the scientific literature, and compare them to data from schizophrenia (SZ) and major depressive disorder (MDD). The transcriptome profiles of all three disorders overlap, making the existence of a BPD-specific profile unlikely. Three groups of functionally related genes are consistently expressed at altered levels in BPD, SZ and MDD. Genes involved in energy metabolism and mitochondrial function are downregulated, genes involved in immune response and inflammation are upregulated, and genes expressed in oligodendrocytes are downregulated. Experimental paradigms for multiple sclerosis demonstrate a tight link between energy metabolism, inflammation and demyelination. These studies also show variabilities in the extent of oligodendrocyte stress, which can vary from a downregulation of oligodendrocyte genes, such as observed in psychiatric disorders, to cell death and brain lesions seen in multiple sclerosis. We conclude that experimental models of multiple sclerosis could be of interest for the research of BPD, SZ and MDD.
双相情感障碍(BPD)的基因表达研究表明,多个脑区的转录组谱发生了变化。在这里,我们总结了科学文献中最一致的发现,并将其与精神分裂症(SZ)和重度抑郁症(MDD)的数据进行了比较。这三种疾病的转录组谱重叠,因此不太可能存在 BPD 特异性的谱。在 BPD、SZ 和 MDD 中,三组功能相关的基因始终以改变的水平表达。涉及能量代谢和线粒体功能的基因下调,涉及免疫反应和炎症的基因上调,少突胶质细胞表达的基因下调。多发性硬化症的实验模型表明,能量代谢、炎症和脱髓鞘之间存在紧密联系。这些研究还表明,少突胶质细胞应激的程度存在差异,这种差异可以从少突胶质细胞基因的下调(如在精神疾病中观察到的那样)到多发性硬化症中看到的细胞死亡和脑损伤。我们得出结论,多发性硬化症的实验模型可能对 BPD、SZ 和 MDD 的研究有意义。