# The structure, redox chemistry and motor neuron toxicity of heterodimeric zinc-deficient SOD1-implications for the toxic gain of function observed in ALS

**Authors:** Victor A. Streltsov, Katherine E. Ganio, Stewart D. Nuttall, J. Andres Hernandez, Cassandra N. Dennys, Peter J. Crouch, Alvaro G. Estevez, Maria Clara Franco, Joseph S. Beckman, Blaine R. Roberts

PMC · DOI: 10.1016/j.nbd.2025.107189 · Neurobiology of disease · 2026-01-02

## TL;DR

This paper explores how a zinc-deficient form of SOD1, when paired with normal SOD1, becomes toxic and contributes to motor neuron disease in ALS.

## Contribution

The study genetically tethers and structurally characterizes a heterodimeric SOD1 complex to explain its toxic role in ALS.

## Key findings

- Zinc-deficient SOD1 forms a stable heterodimer with wild-type SOD1 and adopts a normal-like structure.
- The heterodimer produces peroxynitrite and is highly toxic to motor neurons.
- Wild-type SOD1 may contribute to disease progression through heterodimer formation with mutant SOD1.

## Abstract

A subset of familial cases of amyotrophic lateral sclerosis (fALS) are caused by mutations to copper, zinc superoxide dismutase (Cu, Zn SOD1). Over 200 mutations to SOD1 that have been associated with fALS and the majority of these mutations are dominantly inherited. Thus, individuals are heterozygous and express both wild-type SOD1 and the mutant form of the protein. Paradoxically, the motor neuron disease accelerates in rodent models that mimic the co-expression of wild-type SOD1 with mutant fALS SOD1. Previously, we have shown that the loss of zinc from SOD1 triggers motor neuron death in culture due to a gained, redox activity catalyzed by the active-site copper. Furthermore, motor neuron toxicity of zinc-deficient SOD1 is enhanced by wild-type Cu, Zn SOD1. Because SOD1 exists as a non-covalent dimer, the enhanced toxicity might result from stabilization of the heterodimeric interface between zinc-deficient SOD1 and Cu, Zn-SOD1. However, experimentation with the heterodimer is difficult because SOD1 subunits exchange in minutes. To better characterize the role of dimer stabilization on the enhanced toxicity of fALS mutant SOD1 by wild type SOD1, we genetically tethered a zinc-deficient SOD1 subunit with a Cu, Zn SOD1 subunit with a 16-residue linker. The x-ray structure of the tethered heterodimer showed that the zinc-deficient subunit adopts a wild-type-like conformation and is not misfolded. The heterodimer intermediate also produced peroxynitrite from nitric oxide, and the tethered SOD1 was strikingly toxic to primary cultures of motor neurons. This work supports the concept that zinc-deficient SOD1 is a likely toxic intermediate in ALS. Furthermore, the wild-type allele in human familial-SOD1 ALS patients may physically contribute to the dominant inheritance of SOD1 mutations through heterodimer formation.

## Linked entities

- **Genes:** SOD1 (superoxide dismutase 1) [NCBI Gene 6647]
- **Proteins:** SOD1 (superoxide dismutase 1), Sod1 (Superoxide dismutase 1)
- **Chemicals:** zinc (PubChem CID 23994), copper (PubChem CID 23978), nitric oxide (PubChem CID 145068), peroxynitrite (PubChem CID 104806)
- **Diseases:** amyotrophic lateral sclerosis (MONDO:0004976), familial amyotrophic lateral sclerosis (MONDO:0005144)
- **Species:** Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** SOD1 (superoxide dismutase 1) [NCBI Gene 6647] {aka ALS, ALS1, HEL-S-44, IPOA, SOD, STAHP}
- **Diseases:** motor neuron disease (MESH:D016472), amyotrophic lateral sclerosis (MESH:D000690), toxicity (MESH:D064420), ALS (MESH:D008113)
- **Chemicals:** Zn (MESH:D015032), peroxynitrite (MESH:D030421), nitric oxide (MESH:D009569), Cu (MESH:D003300)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12758609/full.md

## References

66 references — full list in the complete paper: https://tomesphere.com/paper/PMC12758609/full.md

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Source: https://tomesphere.com/paper/PMC12758609