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对杆状体肌病的ACTA1(Asp286Gly)小鼠模型进行的多模态MRI和(31)P-MRS研究提供了体内肌肉功能受损、肌肉结构改变和能量代谢紊乱的证据。

Multimodal MRI and (31)P-MRS investigations of the ACTA1(Asp286Gly) mouse model of nemaline myopathy provide evidence of impaired in vivo muscle function, altered muscle structure and disturbed energy metabolism.

作者信息

Gineste Charlotte, Duhamel Guillaume, Le Fur Yann, Vilmen Christophe, Cozzone Patrick J, Nowak Kristen J, Bendahan David, Gondin Julien

机构信息

Aix-Marseille Université, Centre National de la Recherche Scientifique, Centre de Résonance Magnétique Biologique et Médicale, Unité Mixte de Recherche 7339, Marseille, France.

出版信息

PLoS One. 2013 Aug 20;8(8):e72294. doi: 10.1371/journal.pone.0072294. eCollection 2013.

DOI:10.1371/journal.pone.0072294
PMID:23977274
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3748127/
Abstract

Nemaline myopathy (NM), the most common non-dystrophic congenital disease of skeletal muscle, can be caused by mutations in the skeletal muscle α-actin gene (ACTA1) (~25% of all NM cases and up to 50% of severe forms of NM). Muscle function of the recently generated transgenic mouse model carrying the human Asp286Gly mutation in the ACTA1 gene (Tg(ACTA1)(Asp286Gly)) has been mainly investigated in vitro. Therefore, we aimed at providing a comprehensive picture of the in vivo hindlimb muscle function of Tg(ACTA1)(Asp286Gly) mice by combining strictly noninvasive investigations. Skeletal muscle anatomy (hindlimb muscles, intramuscular fat volumes) and microstructure were studied using multimodal magnetic resonance imaging (Dixon, T2, Diffusion Tensor Imaging [DTI]). Energy metabolism was studied using 31-phosphorus Magnetic Resonance Spectroscopy ((31)P-MRS). Skeletal muscle contractile performance was investigated while applying a force-frequency protocol (1-150 Hz) and a fatigue protocol (6 min-1.7 Hz). Tg(ACTA1)(Asp286Gly) mice showed a mild muscle weakness as illustrated by the reduction of both absolute (30%) and specific (15%) maximal force production. Dixon MRI did not show discernable fatty infiltration in Tg(ACTA1)(Asp286Gly) mice indicating that this mouse model does not reproduce human MRI findings. Increased T2 values were observed in Tg(ACTA1)(Asp286Gly) mice and might reflect the occurrence of muscle degeneration/regeneration process. Interestingly, T2 values were linearly related to muscle weakness. DTI experiments indicated lower λ2 and λ3 values in Tg(ACTA1)(Asp286Gly) mice, which might be associated to muscle atrophy and/or the presence of histological anomalies. Finally (31)P-MRS investigations illustrated an increased anaerobic energy cost of contraction in Tg(ACTA1)(Asp286Gly) mice, which might be ascribed to contractile and non-contractile processes. Overall, we provide a unique set of information about the anatomic, metabolic and functional consequences of the Asp286Gly mutation that might be considered as relevant biomarkers for monitoring the severity and/or the progression of NM and for assessing the efficacy of potential therapeutic interventions.

摘要

杆状体肌病(NM)是最常见的非营养不良性先天性骨骼肌疾病,可由骨骼肌α - 肌动蛋白基因(ACTA1)的突变引起(约占所有NM病例的25%,在严重形式的NM中占比高达50%)。最近构建的携带人ACTA1基因Asp286Gly突变的转基因小鼠模型(Tg(ACTA1)(Asp286Gly))的肌肉功能主要是在体外进行研究的。因此,我们旨在通过结合严格的非侵入性研究,全面了解Tg(ACTA1)(Asp286Gly)小鼠体内后肢肌肉的功能。使用多模态磁共振成像(狄克逊法、T2加权成像、扩散张量成像[DTI])研究骨骼肌解剖结构(后肢肌肉、肌内脂肪体积)和微观结构。使用31磷磁共振波谱((31)P - MRS)研究能量代谢。在应用力 - 频率方案(1 - 150 Hz)和疲劳方案(6分钟 - 1.7 Hz)时,研究骨骼肌的收缩性能。Tg(ACTA1)(Asp286Gly)小鼠表现出轻度肌无力,表现为绝对最大力产生(降低30%)和比最大力产生(降低15%)均下降。狄克逊MRI未显示Tg(ACTA1)(Asp286Gly)小鼠有明显的脂肪浸润,表明该小鼠模型未重现人类MRI的表现。在Tg(ACTA1)(Asp286Gly)小鼠中观察到T2值升高,这可能反映了肌肉变性/再生过程的发生。有趣的是,T2值与肌无力呈线性相关。DTI实验表明Tg(ACTA1)(Asp286Gly)小鼠的λ2和λ3值较低,这可能与肌肉萎缩和/或组织学异常的存在有关。最后,(31)P - MRS研究表明Tg(ACTA1)(Asp286Gly)小鼠收缩时的无氧能量消耗增加,这可能归因于收缩和非收缩过程。总体而言,我们提供了关于Asp286Gly突变的解剖学、代谢和功能后果的独特信息集,这些信息可被视为监测NM严重程度和/或进展以及评估潜在治疗干预效果的相关生物标志物。

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