Identifying novel response markers for spinal muscular atrophy revealed by targeted proteomics following gene therapy.

Spinal muscular atrophy (SMA) is a progressive disease that affects motor neurons, with symptoms usually starting in infancy or early childhood. Recent breakthroughs in treatments targeting SMA have improved both lifespan and quality of life for infants and children with the disease. Given the impact of these treatments, it is essential to develop methods for managing treatment-induced changes in disease characteristics. Zolgensma® is the first effective and approved gene therapy for SMA caused by biallelic mutation in the SMN1 gene. In three children with SMA treated with Zolgensma®, neuronal, glial, inflammation, and vascular markers in the plasma exhibited a quicker response, emphasizing their potential as valuable biomarkers of treatment efficacy in clinical trials. We chose the novel Nucleic acid Linked Immuno-Sandwich Assay, to investigate a predefined panel of neuroinflammatory markers in plasma samples collected from SMA patients at baseline and six months after Zolgensma® treatment. We identified a set of novel targets whose levels differed between pre and post Zolgensma® treatment group and that were responsive to treatment. Even though our results warrant validation in larger SMA cohorts and longer follow-up time, they may pave the way for a panel of responsive proteins solidifying biomarker endpoints in SMA clinical trials.