X-linked SBMA model mice display relevant non-neurological phenotypes and their expression of mutant androgen receptor protein in motor neurons is not required for neuromuscular disease.

IF 6.2 2区 医学 Q1 NEUROSCIENCES Acta Neuropathologica Communications Pub Date : 2023-06-02 DOI:10.1186/s40478-023-01582-1
Anastasia Gromova, Byeonggu Cha, Erica M Robinson, Laura M Strickland, Nhat Nguyen, Mai K ElMallah, Constanza J Cortes, Albert R La Spada
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Abstract

X-linked spinal and bulbar muscular atrophy (SBMA; Kennedy's disease) is a rare neuromuscular disorder characterized by adult-onset proximal muscle weakness and lower motor neuron degeneration. SBMA was the first human disease found to be caused by a repeat expansion mutation, as affected patients possess an expanded tract of CAG repeats, encoding polyglutamine, in the androgen receptor (AR) gene. We previously developed a conditional BAC fxAR121 transgenic mouse model of SBMA and used it to define a primary role for skeletal muscle expression of polyglutamine-expanded AR in causing the motor neuron degeneration. Here we sought to extend our understanding of SBMA disease pathophysiology and cellular basis by detailed examination and directed experimentation with the BAC fxAR121 mice. First, we evaluated BAC fxAR121 mice for non-neurological disease phenotypes recently described in human SBMA patients, and documented prominent non-alcoholic fatty liver disease, cardiomegaly, and ventricular heart wall thinning in aged male BAC fxAR121 mice. Our discovery of significant hepatic and cardiac abnormalities in SBMA mice underscores the need to evaluate human SBMA patients for signs of liver and heart disease. To directly examine the contribution of motor neuron-expressed polyQ-AR protein to SBMA neurodegeneration, we crossed BAC fxAR121 mice with two different lines of transgenic mice expressing Cre recombinase in motor neurons, and after updating characterization of SBMA phenotypes in our current BAC fxAR121 colony, we found that excision of mutant AR from motor neurons did not rescue neuromuscular or systemic disease. These findings further validate a primary role for skeletal muscle as the driver of SBMA motor neuronopathy and indicate that therapies being developed to treat patients should be delivered peripherally.

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X 连锁 SBMA 模型小鼠表现出相关的非神经系统表型,其运动神经元中突变雄激素受体蛋白的表达并非神经肌肉疾病的必要条件。
X连锁脊髓和球部肌萎缩症(SBMA;肯尼迪病)是一种罕见的神经肌肉疾病,以成年后发病的近端肌无力和下运动神经元变性为特征。SBMA 是人类发现的第一种由重复扩增突变引起的疾病,因为患者的雄激素受体(AR)基因中具有扩增的 CAG 重复序列,编码多聚谷氨酰胺。我们之前建立了一个 SBMA 的条件性 BAC fxAR121 转基因小鼠模型,并利用它确定了多谷氨酰胺扩增的 AR 在骨骼肌表达中的主要作用,从而导致运动神经元变性。在这里,我们试图通过对 BAC fxAR121 小鼠的详细检查和定向实验,扩展我们对 SBMA 疾病病理生理学和细胞基础的理解。首先,我们评估了 BAC fxAR121 小鼠最近在人类 SBMA 患者中描述的非神经系统疾病表型,并在老年雄性 BAC fxAR121 小鼠中发现了突出的非酒精性脂肪肝、心脏肿大和心室心壁变薄。我们在 SBMA 小鼠中发现了明显的肝脏和心脏异常,这突出表明有必要对人类 SBMA 患者的肝脏和心脏疾病迹象进行评估。为了直接检测运动神经元表达的 polyQ-AR 蛋白对 SBMA 神经变性的贡献,我们将 BAC fxAR121 小鼠与在运动神经元中表达 Cre 重组酶的两种不同品系的转基因小鼠杂交,在更新了当前 BAC fxAR121 群体的 SBMA 表型特征后,我们发现切除运动神经元中的突变 AR 并不能挽救神经肌肉或全身性疾病。这些发现进一步验证了骨骼肌是 SBMA 运动神经元病变的主要驱动因素,并表明正在开发的用于治疗患者的疗法应从外周给药。
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来源期刊
Acta Neuropathologica Communications
Acta Neuropathologica Communications Medicine-Pathology and Forensic Medicine
CiteScore
11.20
自引率
2.80%
发文量
162
审稿时长
8 weeks
期刊介绍: "Acta Neuropathologica Communications (ANC)" is a peer-reviewed journal that specializes in the rapid publication of research articles focused on the mechanisms underlying neurological diseases. The journal emphasizes the use of molecular, cellular, and morphological techniques applied to experimental or human tissues to investigate the pathogenesis of neurological disorders. ANC is committed to a fast-track publication process, aiming to publish accepted manuscripts within two months of submission. This expedited timeline is designed to ensure that the latest findings in neuroscience and pathology are disseminated quickly to the scientific community, fostering rapid advancements in the field of neurology and neuroscience. The journal's focus on cutting-edge research and its swift publication schedule make it a valuable resource for researchers, clinicians, and other professionals interested in the study and treatment of neurological conditions.
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