Fox Stephanie N, Savage Cody H, Amireddy Narcy R, McMeekin Laura J, Crossman David K, Detloff Peter J, Gray Michelle, Cowell Rita M
Department of Neurology and Center for Neurodegeneration and Experimental Therapeutics, University of Alabama at Birmingham, Birmingham, AL 35294, USA; Southern Research, Birmingham, AL 35205, USA.
Department of Neurology and Center for Neurodegeneration and Experimental Therapeutics, University of Alabama at Birmingham, Birmingham, AL 35294, USA; Southern Research, Birmingham, AL 35205, USA.
Neurobiol Dis. 2025 Mar;206:106818. doi: 10.1016/j.nbd.2025.106818. Epub 2025 Jan 28.
Mitochondrial dysfunction, transcriptional dysregulation, and protein aggregation are hallmarks of multiple neurodegenerative disorders, including Huntington's disease (HD). Strategies are needed to counteract these processes to restore neuronal health and function in HD. Recent evidence indicates that the transcription factor estrogen-related receptor gamma (ERRγ/Esrrg) is required for normal expression of mitochondrial, synaptic, and autophagy genes in neurons. Further, overexpression of Esrrg in dopaminergic neurons reduces synuclein load in the pre-formed fibril model of synucleinopathy. For these reasons, we sought to understand ERRγ's role in transcriptional regulation in spiny projection neurons (SPNs), one of the neuronal populations vulnerable to transcriptional dysregulation, mitochondrial dysfunction, and protein aggregation in HD. Here, we demonstrate that developmental deletion of Esrrg selectively in SPNs causes a transcriptional pattern consistent with a reduction of Drd1 and Drd2-positive neurons in the mouse dorsolateral striatum. To avoid effects of developmental deletion and explore Esrrg's role within adult SPN populations, we deleted or overexpressed Esrrg in adult SPNs. While overexpression was sufficient to increase the expression of mitochondrial and lysosome-related transcripts, Esrrg deletion surprisingly caused increased expression of immediate-early genes and genes with enrichment of binding sites for transcriptional repressors. In contrast, these genes were downregulated by Esrrg overexpression. Concordantly, Esrrg-deficient mice exhibited lack of amphetamine-induced hyperactivity and further upregulation of immediate-early genes. To determine whether the alterations observed with ERRγ modulation have any relevance for understanding transcriptional changes in SPNs in neurodegeneration, we measured Esrrg and its responsive genes in two mouse models of HD. We found an increase in Esrrg expression in HD models, accompanied by a transcriptional profile with similarities to that observed with Esrrg overexpression, suggesting the existence of an ERRγ-dependent, stress-related response. Altogether, these studies suggest that ERRγ is a key activator of mitochondrial and lysosomal transcripts in SPNs with a potential bi-functional role as a mediator of immediate-early gene repression. Ongoing studies are investigating mechanisms underlying ERRγ's roles in transcriptional activation and repression in SPNs to inform strategies to promote neuroprotective actions of ERRγ in SPNs in HD.
线粒体功能障碍、转录失调和蛋白质聚集是包括亨廷顿舞蹈病(HD)在内的多种神经退行性疾病的特征。需要采取策略来对抗这些过程,以恢复HD患者神经元的健康和功能。最近的证据表明,转录因子雌激素相关受体γ(ERRγ/Esrrg)是神经元中线粒体、突触和自噬基因正常表达所必需的。此外,在多巴胺能神经元中过表达Esrrg可降低突触核蛋白病预形成纤维模型中的突触核蛋白负荷。基于这些原因,我们试图了解ERRγ在棘状投射神经元(SPN)转录调控中的作用,SPN是HD中易受转录失调、线粒体功能障碍和蛋白质聚集影响的神经元群体之一。在此,我们证明在SPN中选择性地进行Esrrg的发育性缺失会导致一种转录模式,该模式与小鼠背外侧纹状体中Drd1和Drd2阳性神经元的减少一致。为了避免发育性缺失的影响并探索Esrrg在成年SPN群体中的作用,我们在成年SPN中删除或过表达Esrrg。虽然过表达足以增加线粒体和溶酶体相关转录本的表达,但令人惊讶的是,Esrrg缺失导致即刻早期基因和富含转录抑制因子结合位点的基因表达增加。相反,这些基因在Esrrg过表达时被下调。与此一致,Esrrg缺陷小鼠表现出对苯丙胺诱导的多动缺乏反应,并且即刻早期基因进一步上调。为了确定观察到的ERRγ调节变化是否与理解神经退行性变中SPN的转录变化相关,我们在两种HD小鼠模型中测量了Esrrg及其反应性基因。我们发现在HD模型中Esrrg表达增加,同时伴有与Esrrg过表达时观察到的相似转录谱,这表明存在一种依赖ERRγ的、与应激相关的反应。总之,这些研究表明ERRγ是SPN中线粒体和溶酶体转录本的关键激活因子,具有作为即刻早期基因抑制介质的潜在双功能作用。正在进行的研究正在调查ERRγ在SPN转录激活和抑制中的作用机制,以为促进ERRγ在HD的SPN中的神经保护作用的策略提供信息。
