临床级鼻内 NGF 可促进 Mecp2 缺陷小鼠的神经和代谢功能。

IF 10.6 1区 医学 Q1 CLINICAL NEUROLOGY
Brain Pub Date : 2024-09-20 DOI:10.1093/brain/awae291
Diego Pozzer,Marzia Indrigo,Martina Breccia,Elena Florio,Camilla Aurora Franchino,Giuseppina De Rocco,Francesca Maltecca,Antonio Fadda,Marzia Rossato,Andrea Aramini,Marcello Allegretti,Angelisa Frasca,Lidia De Filippis,Nicoletta Landsberger
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引用次数: 0

摘要

MECP2 缺乏症可导致多种神经精神疾病,男女均可患病。雷特综合征(Rett Syndrome)是最常见的一种疾病,其特点是患者在生长期明显正常,但随后会出现一个退行期,在这一时期,患者会丧失大部分以前习得的技能。在这一戏剧性时期之后,患者会逐渐出现各种症状,包括严重的智力障碍、癫痫、失语、呼吸异常和运动功能退化。MECP2 编码的表观遗传转录因子在大脑中特别丰富,因此,Rett 综合征的大脑存在多种转录缺陷。众所周知,Rett 患者和 Mecp2 缺乏症小鼠模型缺乏多种神经营养素和生长因子,而胰岛素样生长因子 1 的合成类似物特罗芬内酯(Trofinetide)具有积极作用,这促使我们研究神经生长因子的治疗潜力。最初的体外研究表明,rhNGF 对培养的 Mecp2 缺失神经元的神经元成熟和活性有治疗作用。随后,我们设计了具有明显转化潜力的体内研究,使用已在临床上使用的鼻内给药重组人 GMP 级 NGF(rhNGF)。我们评估了 rhNGF 在 Mecp2 基因缺失的半杂合子雄性小鼠和杂合子雌性小鼠体内的疗效。小鼠的一般健康状况通过常规表型评分进行评估,运动表现则通过极点和横梁行走测试进行评估,而认知功能和与环境的互动则分别通过新物体识别测试和埋大理石测试进行评估。治疗结束后,解剖小鼠大脑皮层并进行大量 RNA 测序,以确定参与 rhNGF 保护作用的分子通路。雄性半杂合子小鼠的症状明显更严重、进展更快,而这种药物减缓疾病进展的作用则更为明显。对引发所观察到的益处的分子机制进行的无偏见研究显示,该药物对与氧化磷酸化、线粒体结构和功能相关的基因组有很强的积极作用。这些结果通过证明该药物能够改善 Mecp2 基因缺失大脑皮层的线粒体结构和呼吸功能得到了验证。此外,GO 分析表明,NGF 对神经元成熟起到了预期的改善作用。我们的结论是,鼻内注射 rhNGF 是一种非侵入性的有效给药途径,可用于治疗 Rett 综合征,也可用于治疗其他线粒体功能障碍的神经代谢疾病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Clinical-grade intranasal NGF fuels neurological and metabolic functions of Mecp2-deficient mice.
MECP2 deficiency causes a broad spectrum of neuropsychiatric disorders that can affect both genders. Rett syndrome is the most common and is characterized by an apparently normal growth period followed by a regression phase in which patients lose most of their previously acquired skills. After this dramatic period, various symptoms progressively appear, including severe intellectual disability, epilepsy, apraxia, breathing abnormalities and motor deterioration. MECP2 encodes for an epigenetic transcription factor that is particularly abundant in the brain; consequently, several transcriptional defects characterize the Rett syndrome brain. The well-known deficiency of several neurotrophins and growth factors, together with the positive effects exerted by Trofinetide, a synthetic analogue of insulin-like growth factor 1, in Rett patients and in mouse models of Mecp2 deficiency, prompted us to investigate the therapeutic potential of nerve growth factor. Initial in vitro studies demonstrated a healing effect of rhNGF on neuronal maturation and activity in cultured Mecp2-null neurons. Subsequently, we designed in vivo studies with clear translational potential using intranasally administered recombinant human GMP-grade NGF (rhNGF) already used in the clinic. Efficacy of rhNGF in vivo in Mecp2-null hemizygous male mice and heterozygous female mice was assessed. General well-being was evaluated by a conventional phenotypic score and motor performance through the Pole and Beam Walking tests, while cognitive function and interaction with the environment were measured by the Novel Object Recognition Test and the Marble Burying test, respectively. At the end of the treatment, mouse cortices were dissected and bulk RNA sequencing was performed to identify the molecular pathways involved in the protective effects of rhNGF. rhNGF exerted positive effects on cognitive and motor functions in both male and female mouse models of Rett syndrome. In male hemizygous mice, which suffer from significantly more severe and rapidly advancing symptoms, the drug's ability to slow the disease's progression was more pronounced. The unbiased research for the molecular mechanisms triggering the observed benefits revealed a strong positive effect on gene sets related to oxidative phosphorylation, mitochondrial structure and function. These results were validated by demonstrating the drug's ability to improve mitochondrial structure and respiration in Mecp2-null cerebral cortices. Furthermore, GO analyses indicated that NGF exerted the expected improvement in neuronal maturation. We conclude that intranasal administration of rhNGF is a non-invasive and effective route of administration for the treatment of Rett syndrome and possibly for other neurometabolic disorders with overt mitochondrial dysfunction.
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来源期刊
Brain
Brain 医学-临床神经学
CiteScore
20.30
自引率
4.10%
发文量
458
审稿时长
3-6 weeks
期刊介绍: Brain, a journal focused on clinical neurology and translational neuroscience, has been publishing landmark papers since 1878. The journal aims to expand its scope by including studies that shed light on disease mechanisms and conducting innovative clinical trials for brain disorders. With a wide range of topics covered, the Editorial Board represents the international readership and diverse coverage of the journal. Accepted articles are promptly posted online, typically within a few weeks of acceptance. As of 2022, Brain holds an impressive impact factor of 14.5, according to the Journal Citation Reports.
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