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Clarifying the molecular mechanisms underlying the lethal in vitro cellular effects and mild organismal phenotype of SOD1 loss.

Created on 30 Jun 2026

Authors

Ying Wang, Alycia Noë, Long Truong-Ong, Siegfried Hekimi

Published in

Scientific reports. Jun 27, 2026. Epub Jun 27, 2026.

Abstract

SOD1 is the superoxide dismutase localized principally to the cytoplasm. It is found in all cell types, is extremely abundant, and highly efficient at converting superoxide (O2·-) to hydrogen peroxide (H2O2). SOD1 and its homologues in the mitochondrial matrix (SOD2) and extracellular environment (SOD3) are the only enzymes that act directly on superoxide. Surprisingly, Sod1-/- knockout mice exhibit only a mild phenotype. In contrast, Sod1-/- cells cannot survive and multiply in vitro. One possibility for the mild in vivo phenotype is that a subtle genome-wide mechanism of developmental compensation attenuates the phenotype. Conversely, many different mechanisms have been proposed to explain the lethality in vitro and the difficulties of rescuing it with antioxidants. Here, we aim to determine the cause of the severe in vitro phenotype of Sod1-/- cells and whether the mild in vivo phenotype of Sod1-/- mice reflects developmental compensation. We provide evidence that the lethality in vitro is directly due to superoxide toxicity and not to more indirect mechanisms. Furthermore, we created a floxed Sod1 gene to compare acute adult-onset organism-wide removal of the protein with constitutive absence in mice and derived cells. We observed no phenotypic differences between acute and chronic loss of SOD1. We discuss how these observations can be reconciled with the evolutionary conservation of high levels of expression of a broadly expressed, high catalytic rate enzyme.

PMID:
42374077
Bibliographic data and abstract were imported from PubMed on 30 Jun 2026.

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