Dual CRALBP isoforms unveiled: iPSC-derived retinal modeling and AAV2/5-RLBP1 gene transfer raise considerations for effective therapy.

IF 12.1 1区 医学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Molecular Therapy Pub Date : 2024-12-04 Epub Date: 2024-10-09 DOI:10.1016/j.ymthe.2024.10.004
Krishna Damodar, Gregor Dubois, Laurent Guillou, Daria Mamaeva, Marie Pequignot, Nejla Erkilic, Carla Sanjurjo-Soriano, Hassan Boukhaddaoui, Florence Bernex, Béatrice Bocquet, Jérôme Vialaret, Yvan Arsenijevic, T Michael Redmond, Christopher Hirtz, Isabelle Meunier, Philippe Brabet, Vasiliki Kalatzis
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引用次数: 0

Abstract

Inherited retinal diseases (IRDs) are characterized by progressive vision loss. There are over 270 causative IRD genes, and variants within the same gene can cause clinically distinct disorders. One example is RLBP1, which encodes CRALBP. CRALBP is an essential protein in the rod and cone visual cycles that take place primarily in the retinal pigment epithelium (RPE) but also in Müller cells of the neuroretina. RLBP1 variants lead to three clinical subtypes: Bothnia dystrophy, retinitis punctata albescens, and Newfoundland rod-cone dystrophy. We modeled RLBP1-IRD subtypes using patient-specific induced pluripotent stem cell (iPSC)-derived RPE and identified pathophysiological markers that served as pertinent therapeutic read-outs. We developed an AAV2/5-mediated gene-supplementation strategy and performed a proof-of-concept study in the human models, which was validated in vivo in an Rlbp1-/- murine model. Most importantly, we identified a previously unsuspected smaller CRALBP isoform that is naturally and differentially expressed both in the human and murine retina. This previously unidentified isoform is produced from an alternative methionine initiation site. This work provides further insights into CRALBP expression and RLBP1-associated pathophysiology and raises important considerations for successful gene-supplementation therapy.

揭示双重 CRALBP 同工酶:iPSC 衍生视网膜模型和 AAV2/5-RLBP1 基因转移为有效治疗提供了考虑因素。
遗传性视网膜疾病(IRD)的特征是进行性视力丧失。IRD 的致病基因超过 270 个,同一基因的变异可导致临床上不同的疾病。其中一个例子是编码 CRALBP 的 RLBP1。CRALBP 是视杆细胞和视锥细胞视觉循环中的一种重要蛋白质,视觉循环主要在视网膜色素上皮(RPE)中进行,也在神经视网膜的 Müller 细胞中进行。RLBP1 变异可导致三种临床亚型:博氏营养不良症、白斑性视网膜炎和纽芬兰杆锥体营养不良症。我们利用患者特异性 iPSC 衍生的 RPE 对 RLBP1-IRD 亚型进行建模,并确定了可作为相关治疗指标的病理生理标记。我们开发了一种 AAV2/5 介导的基因补充策略,并在人体模型中进行了概念验证研究,在 Rlbp1-/- 鼠模型中进行了体内验证。最重要的是,我们发现了一种以前未曾发现的较小的 CRALBP 同工型,它在人类和小鼠视网膜中都有不同程度的自然表达。这种以前未被发现的异构体是由一个替代的蛋氨酸起始位点产生的。这项工作进一步揭示了 CRALBP 的表达和 RLBP1 相关的病理生理学,并为成功的基因补充疗法提出了重要的考虑因素。
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来源期刊
Molecular Therapy
Molecular Therapy 医学-生物工程与应用微生物
CiteScore
19.20
自引率
3.20%
发文量
357
审稿时长
3 months
期刊介绍: Molecular Therapy is the leading journal for research in gene transfer, vector development, stem cell manipulation, and therapeutic interventions. It covers a broad spectrum of topics including genetic and acquired disease correction, vaccine development, pre-clinical validation, safety/efficacy studies, and clinical trials. With a focus on advancing genetics, medicine, and biotechnology, Molecular Therapy publishes peer-reviewed research, reviews, and commentaries to showcase the latest advancements in the field. With an impressive impact factor of 12.4 in 2022, it continues to attract top-tier contributions.
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