D01 Two independent validations of a mutant huntingtin protein (MHTT) assay to support the clinical development of mHTT-targeting therapies in HD

D: Wet biomarkers Pub Date : 2021-09-01 DOI:10.1136/jnnp-2021-ehdn.32

D. Hawellek, S. Vauléon, Katharina Schutz, Benoit Massonnet, Nanda Gruben, M. Manchester, L. Boak, S. Schobel

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Abstract

Background Huntington’s disease (HD) is caused by a CAG repeat expansion in the huntingtin gene, resulting in the production of toxic mutant huntingtin protein (mHTT). Quantification of mHTT in the cerebrospinal fluid (CSF) of patients with HD using a method validated as per international guidelines is critical to support the clinical development of mHTT-targeting therapies. Aims To validate a bioanalytical method for quantifying relative mHTT levels in human CSF in two independent laboratories. Methods The assay was optimised in a single laboratory before its transfer to a second independent laboratory. All results were generated in regulated bioanalytical environments (i.e. by Good Clinical Practice-trained personnel in Good Laboratory Practice-certified laboratories) using a bead-based sandwich ligand-binding assay with Single Molecule Counting detection on the SMCxPROTM (Merck). The ultra-sensitive assay employs the antibody pair 2B7/MW1 for capture and detection and artificial CSF as a surrogate matrix. Assay validation followed international guidelines adapted to the context of use. Results Full assay validation performed in two independent laboratories (Roche, PRA Health Sciences) confirmed robust inter- and intra-assay accuracy and precision and a high sensitivity (lower limit of quantification =1.63 pg-eq/mL [Roche], 1.64 pg-eq/mL [PRA Health Sciences]). Parallelism and specificity experiments involving CSF from patients with HD as well as artificial CSF matrices confirmed the selectivity and specificity of the assay, and the absence of a matrix effect. Stability of mHTT in artificial CSF was found to be sufficient to accommodate bioanalysis. Conclusions The independent method validations demonstrate that this ultra-sensitive assay can be replicated and transferred, making it a reliable and broadly relevant tool for generating biomarker data in registrational clinical trials for mHTT-lowering therapies. Study sponsored by F. Hoffmann-La Roche Ltd.

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两项独立验证突变型亨廷顿蛋白(MHTT)检测，以支持MHTT靶向治疗HD的临床开发

亨廷顿氏病(HD)是由亨廷顿基因CAG重复扩增引起的，导致产生有毒突变的亨廷顿蛋白(mHTT)。使用国际指南验证的方法定量HD患者脑脊液(CSF)中的mHTT对于支持mHTT靶向治疗的临床开发至关重要。目的在两个独立的实验室验证测定人脑脊液中mHTT相对水平的生物分析方法。方法在转移到第二个独立实验室之前，先在单个实验室进行优化。所有结果都是在规范的生物分析环境中(即由经过良好临床实践培训的人员在经过良好实验室实践认证的实验室中)使用SMCxPROTM(默克)的单分子计数检测的基于珠状夹芯配体结合试验产生的。该超灵敏检测采用抗体对2B7/MW1进行捕获和检测，人工CSF作为替代基质。测定验证遵循适应使用环境的国际指南。结果在两个独立实验室(Roche, PRA Health Sciences)进行了全面的分析验证，证实了检测间和检测内的准确性和精密度以及高灵敏度(定量下限=1.63 pg-eq/mL [Roche]， 1.64 pg-eq/mL [PRA Health Sciences])。涉及HD患者CSF以及人工CSF基质的平行性和特异性实验证实了该方法的选择性和特异性，并且不存在基质效应。人工脑脊液中mHTT的稳定性足以进行生物分析。独立的方法验证表明，这种超灵敏的检测方法可以复制和转移，使其成为在降低mhtt治疗的注册临床试验中生成生物标志物数据的可靠且广泛相关的工具。研究由F. Hoffmann-La Roche有限公司赞助。

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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D: Wet biomarkers

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