# Functional validation of the novel KIF5A p.R17Q VUS reveals defective axonal transport in iPSC-motoneurons from a SPG10 patient

**Authors:** Serena Santangelo, Valeria Casiraghi, Claudia Fallini, Sabrina Invernizzi, Silvia Peverelli, Martina Bertocchi, Monica Feole, Marta Cozzi, Stefania Magri, Angelo Poletti, Patrizia Bossolasco, Franco Taroni, Vincenzo Silani, Antonia Ratti

PMC · DOI: 10.3389/fgene.2026.1774170 · 2026-02-27

## TL;DR

This study shows that a genetic variant in KIF5A causes impaired axonal transport in motor neurons from a SPG10 patient, confirming its harmful effect.

## Contribution

The study functionally validates a novel KIF5A variant as pathogenic using patient-derived iPSC-motoneurons.

## Key findings

- The p.R17Q variant in KIF5A leads to axonal swellings and altered protein distribution in iPSC-motoneurons.
- Anterograde transport of mitochondria and lysosomes is significantly reduced in mutant iPSC-motoneurons.
- The p.R17Q variant is confirmed as pathogenic, expanding the known mutations causing SPG10.

## Abstract

Cytoskeletal alterations and axonal transport deficits are key factors in many neurodegenerative disorders. The neuronal kinesin family member 5A (KIF5A) is a microtubule-based motor protein critical for anterograde transport of RNA granules, organelles, and neurofilaments along axons and dendrites. Heterozygous missense and nonsense mutations in the N-terminal motor and stalk domains are associated with hereditary spastic paraplegia 10 (SPG10) and Charcot-Marie-Tooth disease type 2 (CMT2), while frameshift mutations in KIF5A C-terminal cargo-binding domain are linked to amyotrophic lateral sclerosis (ALS). We recently reprogrammed an iPSC line from a SPG10 patient carrying the novel missense variant c.50G>A (p.R17Q) in the KIF5A motor domain, classified as variant of unknown significance (VUS) and predicted to affect ATP binding. Here we gene-edited this mutant iPSC line by CRISPR-Cas9 to obtain an isogenic wild-type (WT) KIF5A cell line. We next examined functionally the impact of the p.R17Q VUS on KIF5A protein sub-cellular distribution and on axonal transport of mitochondria and lysosomes in differentiated iPSC-motoneurons (MNs). The presence of neurofilament-positive axonal swellings and an increased distribution of KIF5A protein in distal neurites was observed in the mutant p.R17Q compared to the WT KIF5A iPSC-MNs, indicating a likely defective axonal transport. The anterograde velocity and distance travelled by mitochondria and lysosomes along neurites was indeed significantly reduced in the mutant KIF5A iPSC-MNs compared to the WT ones. These findings demonstrate that the p.R17Q VUS is pathogenic, thereby extending the spectrum of KIF5A mutations causing SPG10 and support the use of patient-derived iPSC-MNs to functionally validate KIF5A-associated VUS.

## Linked entities

- **Genes:** KIF5A (kinesin family member 5A) [NCBI Gene 3798]
- **Proteins:** KIF5A (kinesin family member 5A)
- **Diseases:** hereditary spastic paraplegia 10 (MONDO:0011408), Charcot-Marie-Tooth disease type 2 (MONDO:0018993), amyotrophic lateral sclerosis (MONDO:0004976)

## Full-text entities

- **Genes:** KIF5A (kinesin family member 5A) [NCBI Gene 3798] {aka ALS25, D12S1889, MY050, NEIMY, NKHC, SPG10}
- **Diseases:** hereditary spastic paraplegia 10 (MESH:D015419), ALS (MESH:D000690), SPG10 (MESH:C537482), neurodegenerative disorders (MESH:D019636), CMT2 (MESH:D015417)
- **Chemicals:** ATP (MESH:D000255)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Mutations:** c.50G>A, p.R17Q

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12981723/full.md

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Source: https://tomesphere.com/paper/PMC12981723