Sensory-motor neuropathy in Mfn2 T105M knock-in mice and its reversal by a novel piperine-derived mitofusin activator

IF 3.1 3区 医学 Q2 PHARMACOLOGY & PHARMACY
Jochen Weigele, Lihong Zhang, Antonietta Franco, Etienne Cartier, Gerald W. Dorn
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引用次数: 0

Abstract

Mitochondrial dysfunction is a hallmark of many genetic neurodegenerative diseases, but therapeutic options to reverse mitochondrial dysfunction are limited. While recent studies support the possibility of improving mitochondrial fusion/fission dynamics and motility to correct mitochondrial dysfunction and resulting neurodegeneration in Charcot-Marie-Tooth disease (CMT) and other neuropathies, the clinical utility of reported compounds and relevance of pre-clinical models are uncertain. Here, we describe motor and sensory neuron dysfunction characteristic of clinical CMT type 2A in a CRISPR/Casp-engineered Mfn2 Thr105Met (T105M) mutant knock-in mouse. We further demonstrate that daily oral treatment with a novel mitofusin activator derived from the natural product piperine can reverse these neurological phenotypes. Piperine derivative 8015 promoted mitochondrial fusion and motility in Mfn2-deficient cells in a mitofusin-dependent manner, and reversed mitochondrial dysfunction in cultured fibroblasts and reprogrammed motor neurons from a human CMT2A patient carrying the MFN2 T105M mutation. Like previous mitofusin activators, 8015 exhibited stereospecific functionality, but the more active stereoisomer, 8015-P2, is unique in that it has sub-nanomolar potency and undergoes entero-hepatic recirculation which extends its in vivo half-life. Daily administration of 8015-P2 to Mfn2 T105M knock-in mice for 6 weeks normalized neuromuscular and sensory dysfunction and corrected histological/ultrastructural neurodegeneration and neurogenic myoatrophy. These studies describe a more clinically relevant mouse model of CMT2A and an improved mitofusin activator derived from piperine. We posit that 8015-P2 and other piperine derivatives may benefit CMT2A or other neurodegenerative conditions wherein mitochondrial dysdynamism plays a contributory role.
Mfn2 T105M基因敲入小鼠的感觉运动神经病及其通过新型哌啶衍生丝裂霉素激活剂的逆转作用
线粒体功能障碍是许多遗传性神经退行性疾病的标志,但逆转线粒体功能障碍的治疗方案却很有限。尽管最近的研究支持通过改善线粒体融合/分裂动力学和运动性来纠正线粒体功能障碍以及由此导致的夏科-玛丽-牙病(CMT)和其他神经病的神经退行性变的可能性,但所报道的化合物的临床实用性和临床前模型的相关性尚不确定。在这里,我们描述了在 CRISPR/Casp 工程化的 Mfn2 Thr105Met(T105M)突变基因敲入小鼠中出现的具有临床 CMT 2A 型特征的运动和感觉神经元功能障碍。我们进一步证明,每天口服一种从天然产品胡椒碱中提取的新型丝裂蛋白激活剂可以逆转这些神经表型。胡椒碱衍生物 8015 能以有丝分裂素依赖的方式促进 Mfn2 缺陷细胞的线粒体融合和运动,并能逆转培养的成纤维细胞和来自携带 MFN2 T105M 突变的人类 CMT2A 患者的重编程运动神经元的线粒体功能障碍。与以前的丝裂霉素激活剂一样,8015 也具有立体特异性,但活性更强的立体异构体 8015-P2 的独特之处在于它具有亚纳摩尔效力,并能进行肠肝再循环,从而延长了其体内半衰期。Mfn2 T105M 基因敲入小鼠每天服用 8015-P2 6 周后,神经肌肉和感觉功能障碍趋于正常,组织学/超微结构神经变性和神经源性肌萎缩得到纠正。这些研究描述了一种更贴近临床的 CMT2A 小鼠模型和一种从胡椒碱中提取的改良丝裂霉素激活剂。我们认为,8015-P2 和其他胡椒碱衍生物可能对 CMT2A 或其他线粒体失调的神经退行性疾病有益。
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来源期刊
CiteScore
6.90
自引率
0.00%
发文量
115
审稿时长
1 months
期刊介绍: A leading research journal in the field of pharmacology published since 1909, JPET provides broad coverage of all aspects of the interactions of chemicals with biological systems, including autonomic, behavioral, cardiovascular, cellular, clinical, developmental, gastrointestinal, immuno-, neuro-, pulmonary, and renal pharmacology, as well as analgesics, drug abuse, metabolism and disposition, chemotherapy, and toxicology.
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