Oxygen Toxicity Causes Cyclic Damage by Destabilizing Specific Fe-S Cluster-containing Protein Complexes

Overview

Journal Mol Cell

Publisher Cell Press

Specialty Cell Biology

Date 2023 Mar 9

PMID 36893757

Authors

Alan H Baik

Augustinus G Haribowo

Xuewen Chen

Bruno B Queliconi

Alec M Barrios

Ankur Garg

Mazharul Maishan

Alexandre R Campos

Michael A Matthay

Isha H Jain

Affiliations

Soon will be listed here.

Abstract

Oxygen is toxic across all three domains of life. Yet, the underlying molecular mechanisms remain largely unknown. Here, we systematically investigate the major cellular pathways affected by excess molecular oxygen. We find that hyperoxia destabilizes a specific subset of Fe-S cluster (ISC)-containing proteins, resulting in impaired diphthamide synthesis, purine metabolism, nucleotide excision repair, and electron transport chain (ETC) function. Our findings translate to primary human lung cells and a mouse model of pulmonary oxygen toxicity. We demonstrate that the ETC is the most vulnerable to damage, resulting in decreased mitochondrial oxygen consumption. This leads to further tissue hyperoxia and cyclic damage of the additional ISC-containing pathways. In support of this model, primary ETC dysfunction in the Ndufs4 KO mouse model causes lung tissue hyperoxia and dramatically increases sensitivity to hyperoxia-mediated ISC damage. This work has important implications for hyperoxia pathologies, including bronchopulmonary dysplasia, ischemia-reperfusion injury, aging, and mitochondrial disorders.

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