H105A peptide eye drops promote photoreceptor survival in murine and human models of retinal degeneration.

IF 5.4 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Communications medicine Pub Date : 2025-03-21 DOI:10.1038/s43856-025-00789-8

Alexandra Bernardo-Colón, Andrea Bighinati, Shama Parween, Subrata Debnath, Ilaria Piano, Elisa Adani, Francesca Corsi, Claudia Gargini, Natalia Vergara, Valeria Marigo, S Patricia Becerra

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Abstract

Background: Photoreceptor death leads to inherited blinding retinal diseases, such as retinitis pigmentosa (RP). As disease progression often outpaces therapeutic advances, developing effective treatments is urgent. This study evaluates the efficacy of small peptides derived from pigment epithelium-derived factor (PEDF), which are known to restrict common cell death pathways associated with retinal diseases.

Methods: We tested chemically synthesized peptides (17-mer and H105A) with affinity for the PEDF receptor, PEDF-R, delivered as eye drops to two RP mouse models: rd10 (phosphodiesterase 6b mutation) and Rho^P23H/+ (rhodopsin P23H mutation). Additionally, we engineered AAV-H105A vectors for intravitreal delivery in Rho^P23H/+ mice. To assess peptide effects in human tissue, we used retinal organoids exposed to cigarette smoke extract, a model of oxidative stress. Photoreceptor survival, morphology and function were evaluated.

Results: Here we show that peptides 17-mer and H105A delivered via eye drops successfully reach the retina, promote photoreceptor survival, and improve retinal function in both RP mouse models. Intravitreal delivery of a AAV-H105A vector delays photoreceptor degeneration in Rho^P23H/+ mice up to six months. In human retinal organoids, peptide H105A specifically prevents photoreceptor death induced by oxidative stress, a contributing factor to RP progression.

Conclusions: PEDF peptide-based eye drops offer a promising, minimally invasive therapy to prevent photoreceptor degeneration in retinal disorders, with a favorable safety profile.

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H105A 肽眼药水可促进小鼠和人类视网膜变性模型中感光细胞的存活。

背景：光感受器死亡导致遗传性致盲性视网膜疾病，如色素性视网膜炎（RP）。由于疾病进展往往超过治疗进展，开发有效的治疗方法迫在眉睫。本研究评估了色素上皮衍生因子（PEDF）衍生的小肽的功效，已知PEDF可限制与视网膜疾病相关的常见细胞死亡途径。方法：我们测试了化学合成的与PEDF受体（PEDF- r）有亲和力的肽（17-mer和H105A），并将其作为滴眼液传递给两种RP小鼠模型：rd10（磷酸二酯酶6b突变）和RhoP23H/+（视紫红质P23H突变）。此外，我们设计了AAV-H105A载体，用于RhoP23H/+小鼠的玻璃体内传递。为了评估肽在人体组织中的作用，我们使用了暴露于香烟烟雾提取物的视网膜类器官，这是一种氧化应激模型。观察光感受器的存活、形态和功能。结果：在两种RP小鼠模型中，通过滴眼液给药的肽17-mer和H105A成功到达视网膜，促进光感受器存活，改善视网膜功能。玻璃体内递送AAV-H105A载体可使RhoP23H/+小鼠的光感受器变性延迟长达6个月。在人类视网膜类器官中，肽H105A特异性地阻止氧化应激引起的光感受器死亡，这是RP进展的一个因素。结论：基于PEDF肽的滴眼液具有良好的安全性，是一种很有前景的微创治疗方法，可预防视网膜疾病中的光感受器变性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Communications medicine

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