Nuffield Laboratory of Ophthalmology, Nuffield Department of Clinical Neurosciences, University of Oxford, Oxford, UK.
Oxford Eye Hospital, Oxford University Hospitals NHS Foundation Trust, Oxford, UK.
Ophthalmic Genet. 2022 Oct;43(5):661-670. doi: 10.1080/13816810.2022.2073599. Epub 2022 May 10.
Inherited retinal degeneration (IRD) associated with mutations in the gene is associated with a severe, early-onset retinal degeneration for which no therapy currently exists. Base editing, with its capability to precisely catalyse permanent nucleobase conversion in a programmable manner, represents a novel therapeutic approach to targeting this autosomal recessive IRD, for which a gene supplementation is challenging due to the need to target three different retinal CRB1 isoforms.
To report and classify a novel variant and envision a possible therapeutic approach in form of base editing.
Case report.
A 16-year-old male patient with a clinical diagnosis of early-onset retinitis pigmentosa (RP) and characteristic clinical findings of retinal thickening and coarse lamination was seen at the Oxford Eye Hospital. He was found to be compound heterozygous for two variants: a novel pathogenic nonsense variant in exon 9, c.2885T>A (p.Leu962Ter), and a likely pathogenic missense change in exon 6, c.2056C>T (p.Arg686Cys). While a base editing strategy for c.2885T>A would encompass a CRISPR-pass mediated "read-through" of the premature stop codon, the resulting missense changes were predicted to be "possibly damaging" in in-silico analysis. On the other hand, the transversion missense change, c.2056C>T, is amenable to transition editing with an adenine base editor (ABE) fused to a SaCas9-KKH with a negligible chance of bystander edits due to an absence of additional Adenines (As) in the editing window.
This case report records a novel pathogenic nonsense variant in and gives an example of thinking about a base editing strategy for a patient compound heterozygous for CRB1 variants.
与 基因突变相关的遗传性视网膜变性(IRD)与一种严重的早发性视网膜变性有关,目前尚无治疗方法。碱基编辑能够以可编程的方式精确催化永久性核碱基转换,为靶向这种常染色体隐性遗传的 IRD 提供了一种新的治疗方法,由于需要针对三种不同的视网膜 CRB1 异构体进行靶向,因此基因补充具有挑战性。
报告并分类一种新型 变体,并设想一种可能的碱基编辑治疗方法。
病例报告。
一名 16 岁男性患者因早发性视网膜炎(RP)的临床诊断和视网膜增厚和粗糙分层的特征性临床发现而在牛津眼科医院就诊。他被发现是两种 变体的复合杂合子:外显子 9 中的一种新型致病无义变体,c.2885T>A(p.Leu962Ter),以及外显子 6 中的一种可能致病的错义变化,c.2056C>T(p.Arg686Cys)。虽然针对 c.2885T>A 的碱基编辑策略将涵盖 CRISPR 介导的“通读”过早终止密码子,但预测在计算机分析中,由此产生的错义变化将是“可能有害的”。另一方面,c.2056C>T 颠换错义变化可通过与 SaCas9-KKH 融合的腺嘌呤碱基编辑器(ABE)进行转换编辑,由于编辑窗口中不存在额外的腺嘌呤(As),因此发生旁侧编辑的可能性极小。
本病例报告记录了 中的一种新型致病无义变体,并举例说明了针对 CRB1 变体复合杂合子患者的碱基编辑策略的思考。
