Acquisition of neurodegenerative features in isogenic OPTN(E50K) human stem cell-derived retinal ganglion cells associated with autophagy disruption and mTORC1 signaling reduction.

IF 6.2 2区 医学 Q1 NEUROSCIENCES Acta Neuropathologica Communications Pub Date : 2024-10-18 DOI:10.1186/s40478-024-01872-2
Kang-Chieh Huang, Cátia Gomes, Yukihiro Shiga, Nicolas Belforte, Kirstin B VanderWall, Sailee S Lavekar, Clarisse M Fligor, Jade Harkin, Shelby M Hetzer, Shruti V Patil, Adriana Di Polo, Jason S Meyer
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Abstract

The ability to derive retinal ganglion cells (RGCs) from human pluripotent stem cells (hPSCs) has led to numerous advances in the field of retinal research, with great potential for the use of hPSC-derived RGCs for studies of human retinal development, in vitro disease modeling, drug discovery, as well as their potential use for cell replacement therapeutics. Of all these possibilities, the use of hPSC-derived RGCs as a human-relevant platform for in vitro disease modeling has received the greatest attention, due to the translational relevance as well as the immediacy with which results may be obtained compared to more complex applications like cell replacement. While several studies to date have focused upon the use of hPSC-derived RGCs with genetic variants associated with glaucoma or other optic neuropathies, many of these have largely described cellular phenotypes with only limited advancement into exploring dysfunctional cellular pathways as a consequence of the disease-associated gene variants. Thus, to further advance this field of research, in the current study we leveraged an isogenic hPSC model with a glaucoma-associated mutation in the Optineurin (OPTN) protein, which plays a prominent role in autophagy. We identified an impairment of autophagic-lysosomal degradation and decreased mTORC1 signaling via activation of the stress sensor AMPK, along with subsequent neurodegeneration in OPTN(E50K) RGCs differentiated from hPSCs, and have further validated some of these findings in a mouse model of ocular hypertension. Pharmacological inhibition of mTORC1 in hPSC-derived RGCs recapitulated disease-related neurodegenerative phenotypes in otherwise healthy RGCs, while the mTOR-independent induction of autophagy reduced protein accumulation and restored neurite outgrowth in diseased OPTN(E50K) RGCs. Taken together, these results highlighted that autophagy disruption resulted in increased autophagic demand which was associated with downregulated signaling through mTORC1, contributing to the degeneration of RGCs.

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同源 OPTN(E50K) 人类干细胞衍生视网膜神经节细胞神经退行性特征的获得与自噬破坏和 mTORC1 信号减少有关。
从人类多能干细胞(hPSCs)中提取视网膜神经节细胞(RGCs)的能力使视网膜研究领域取得了众多进展,hPSC衍生RGCs在人类视网膜发育研究、体外疾病建模、药物发现以及细胞替代疗法的潜在用途方面具有巨大潜力。在所有这些可能性中,使用源自 hPSC 的 RGCs 作为与人类相关的体外疾病建模平台最受关注,这是因为与细胞置换等更复杂的应用相比,hPSC 具有转化相关性和可立即获得结果的特点。虽然迄今为止已有几项研究侧重于使用与青光眼或其他视神经病变相关的基因变异的 hPSC 衍生 RGC,但其中许多研究主要描述的是细胞表型,对疾病相关基因变异导致的细胞通路功能障碍的探索进展有限。因此,为了进一步推动这一领域的研究,在本研究中,我们利用了一个具有青光眼相关突变的 Optineurin(OPTN)蛋白的同源 hPSC 模型,该蛋白在自噬中发挥着重要作用。我们发现自噬-溶酶体降解功能受损,mTORC1 信号通过应激感应器 AMPK 的激活而减少,随后从 hPSCs 分化出的 OPTN(E50K) RGCs 出现神经退行性变。在hPSC衍生的RGCs中对mTORC1进行药理抑制,可在健康的RGCs中重现与疾病相关的神经退行性表型,而不依赖于mTOR的自噬诱导可减少蛋白积累,恢复患病的OPTN(E50K) RGCs的神经元生长。总之,这些结果突出表明,自噬干扰导致自噬需求增加,而自噬需求增加与通过 mTORC1 的信号传导下调有关,从而导致 RGCs 退化。
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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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