Tofersen decreases neurofilament levels supporting the pathogenesis of the SOD1 p.D91A variant in amyotrophic lateral sclerosis patients

IF 5.4 Q1 MEDICINE, RESEARCH & EXPERIMENTAL
Jochen H. Weishaupt, Péter Körtvélyessy, Peggy Schumann, Ivan Valkadinov, Ute Weyen, Jasper Hesebeck-Brinckmann, Kanchi Weishaupt, Matthias Endres, Peter M. Andersen, Martin Regensburger, Marie Dreger, Jan C. Koch, Julian Conrad, Thomas Meyer
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Abstract

Since the antisense oligonucleotide tofersen has recently become available for the treatment of amyotrophic lateral sclerosis (ALS) caused by mutations in SOD1, determining the causality of the over 230 SOD1 variants has become even more important. The most common SOD1 variant worldwide is p.D91A (c.272A > C), whose causality for ALS is contested when in a heterozygous state. The reason is the high allele frequency of SOD1D91A in Europe, exceeding 1% in Finno-Scandinavia. We present the clinical disease course and serum neurofilament light chain (NfL) results of treating 11 patients either homo- or heterozygous for the SOD1D91A allele for up to 16 months with tofersen. Tofersen decreases serum neurofilament levels (sNFL), which are associated with the ALS progression rate, in the 6 ALS patients homozygous for SOD1D91A. We observe significantly lower sNfL levels in the 5 patients heterozygous for SOD1D91A. The results indicate that both mono- and bi-allelic SOD1D91A are causally relevant targets, with a possibly reduced effect size of SOD1D91Ahet. The finding is relevant for decision making regarding tofersen treatment, patient counseling and inclusion of SOD1D91A patients in drug trials. As far as we are aware, the approach is conceptually new since it provides evidence for the causality of an ALS variant based on a biomarker response to gene-specific treatment. Amyotrophic lateral sclerosis (ALS) is a disease that can be inherited which affects nerve cells in the brain and spinal cord. Changes within a gene called SOD1 that result in a mutation named p.D91A can lead to the development of ALS. People have two copies of the SOD1 gene. It has been unclear whether the presence of only one copy of p.D91A can cause ALS. We treated ALS patients with the p.D91A variant of SOD1 with a drug called tofersen. We found that a marker of disease progression was reduced in patients with one or two copies of the p.D91A mutation. This suggests that the presence of just one p.D91A variant of SOD1 contributes to disease development. This information could be used to improve treatment decisions for people with ALS. Weishaupt, Körtvélyessy, et al. investigate the role of a genetic variant in amyotrophic lateral sclerosis (ALS) causation. Reduction of serum neurofilament light chain levels upon treatment with the SOD1-specific drug tofersen indicates engagement of a relevant target and thus causality of the variant p.D91A in SOD1.

Abstract Image

托福森能降低神经丝水平,支持肌萎缩侧索硬化症患者 SOD1 p.D91A 变异的发病机制。
背景:由于反义寡核苷酸托福森(tofersen)最近可用于治疗由 SOD1 基因突变引起的肌萎缩性脊髓侧索硬化症(ALS),因此确定 230 多种 SOD1 基因变异的因果关系变得更加重要。全球最常见的 SOD1 变异基因是 p.D91A(c.272A > C),该基因在杂合状态下对 ALS 的因果关系存在争议。原因是欧洲的 SOD1D91A 等位基因频率很高,在芬兰-斯堪的纳维亚半岛超过了 1%:我们介绍了用托福森治疗 11 名 SOD1D91A 等位基因同卵或杂合患者长达 16 个月的临床病程和血清神经丝轻链(NfL)结果:结果:托福生降低了6名SOD1D91A等位基因ALS患者的血清神经丝蛋白水平(sNFL),而sNFL与ALS的进展率有关。我们观察到 5 名 SOD1D91A 杂合子患者的 sNfL 水平明显较低。结果表明,SOD1D91A的单等位基因和双等位基因都是有因果关系的靶点,但SOD1D91Ahet的效应大小可能会减小:结论:这一发现与托福森治疗决策、患者咨询以及将 SOD1D91A 患者纳入药物试验有关。据我们所知,这种方法在概念上是全新的,因为它根据生物标志物对基因特异性治疗的反应,为 ALS 变异的因果关系提供了证据。
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