En Route to Targeted Ribosome Editing to Replenish Skin Anchor Protein LAMB3 in Junctional Epidermolysis Bullosa

JID innovations : skin science from molecules to population health Pub Date : 2023-11-10 DOI:10.1016/j.xjidi.2023.100240

Bjoern Wimmer , Andreas Friedrich , Katharina Poeltner , Genevieve Edobor , Claudia Mosshammer , Gazmend Temaj , Adriana Rathner , Thomas Karl , Jan Krauss , Joerg von Hagen , Christopher Gerner , Michael Breitenbach , Helmut Hintner , Johann W. Bauer , Hannelore Breitenbach-Koller

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Abstract

Severe junctional epidermolysis bullosa is a rare genetic, postpartum lethal skin disease, predominantly caused by nonsense/premature termination codon (PTC) sequence variants in LAMB3 gene. LAMB3 encodes LAMB3, the β subunit of epidermal–dermal skin anchor laminin 332. Most translational reads of a PTC mRNA deliver truncated, nonfunctional proteins, whereas an endogenous PTC readthrough mechanism produces full-length protein at minimal and insufficient levels. Conventional translational readthrough-inducing drugs amplify endogenous PTC readthrough; however, translational readthrough-inducing drugs are either proteotoxic or nonselective. Ribosome editing is a more selective and less toxic strategy. This technique identified ribosomal protein L35/uL29 (ie, RpL35) and RpL35-ligands repurposable drugs artesunate and atazanavir as molecular tools to increase production levels of full-length LAMB3. To evaluate ligand activity in living cells, we monitored artesunate and atazanavir treatment by dual luciferase reporter assays. Production levels of full-length LAMB3 increased up to 200% upon artesunate treatment, up to 150% upon atazanavir treatment, and up to 170% upon combinatorial treatment of RpL35 ligands at reduced drug dosage, with an unrelated PTC reporter being nonresponsive. Proof of bioactivity of RpL35 ligands in selective increase of full-length LAMB3 provides the basis for an alternative, targeted therapeutic route to replenish LAMB3 in severe junctional epidermolysis bullosa.

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在进行靶向核糖体编辑以补充大疱性结缔性表皮松解症中皮肤锚定蛋白Lamβ3的过程中

严重结性大疱性表皮松解症(sJEB)是一种罕见的遗传性产后致死性皮肤病，主要由LAMB3基因无义/过早终止密码子(PTC)突变引起。LAMB3编码表皮真皮锚定层粘连蛋白332 (Lm332)的β亚基Lamβ3。PTC mRNA的大多数翻译读取都传递截短的无功能蛋白，而内源性PTC读取机制产生的全长蛋白很少且不足。传统的翻译读通诱导药物(TRIDs)可以扩增内源性PTC读通，但TRIDs具有蛋白质毒性或非选择性。核糖体编辑是一种选择性更强、毒性更小的策略。该技术确定了核糖体蛋白L35/uL29 (RpL35)和RpL35配体，可重复利用的药物Artesunate和Atazanavir作为提高全长Lamβ3 (Lamβ3FL)生产水平的分子工具。为了评估活细胞中的配体活性，我们通过双荧光素酶报告基因检测来监测青蒿琥酯和阿扎那韦的治疗。Lamβ3FL的产生水平在青蒿琥酯治疗下增加200%，阿扎那韦治疗下增加150%，在rpL35配体联合治疗下减少药物剂量时增加170%，与PTC无关的报告基因无反应。RpL35配体在选择性增加Lamβ3FL中的生物活性证明为在sJEB中补充Lamβ3的替代靶向治疗途径提供了基础。

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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来源期刊

JID innovations : skin science from molecules to population health Dermatology

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

8 weeks