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Free radical biology & medicine
07, 2022;187 50-58.

Electron transfer activity of the nanodisc-bound mitochondrial outer membrane protein mitoNEET.

Homyra Tasnim, Huangen Ding
Author Information
  1. Homyra Tasnim: Department of Biological Sciences, Louisiana State University, Baton Rouge, LA, 70803, USA.
  2. Huangen Ding: Department of Biological Sciences, Louisiana State University, Baton Rouge, LA, 70803, USA. Electronic address: hding@lsu.edu.
PMID: 35609862 DOI: 10.1016/j.freeradbiomed.2022.05.011

Abstract

MitoNEET is the first iron-sulfur protein found in mitochondrial outer membrane. Abnormal expression of mitoNEET in cells has been linked to several types of cancer, type II diabetes, and neurodegenerative diseases. Structurally, mitoNEET is anchored to mitochondrial outer membrane via its N-terminal single transmembrane alpha helix. The C-terminal cytosolic domain of mitoNEET binds a [2Fe-2S] cluster via three cysteine and one histidine residues. It has been shown that mitoNEET has a crucial role in energy metabolism, iron homeostasis, and free radical production in cells. However, the exact function of mitoNEET remains elusive. Previously, we reported that the C-terminal soluble domain of mitoNEET has a specific binding site for flavin mononucleotide (FMN) and can transfer electrons from FMNH to oxygen or ubiquinone-2 via its [2Fe-2S] cluster. Here we have constructed a hybrid protein using the N-terminal transmembrane domain of Escherichia coli YneM and the C-terminal soluble domain of human mitoNEET and assembled the hybrid protein YneM-mitoNEET into phospholipid nanodiscs. The results show that the [2Fe-S] clusters in the nanodisc-bound YneM-mitoNEET can be rapidly reduced by FMNH which is reduced by flavin reductase using NADH as the electron donor. Addition of lumichrome, a FMN analog, effectively inhibits the FMNH-mediated reduction of the [2Fe-2S] clusters in the nanodisc-bound YneM-mitoNEET. The reduced [2Fe-2S] clusters in the nanodisc-bound YneM-mitoNEET are quickly oxidized by oxygen under aerobic conditions or by ubiquinone-10 in the nanodiscs under anaerobic conditions. Because NADH oxidation is required for cellular glycolytic activity, we propose that the mitochondrial outer membrane protein mitoNEET may promote glycolysis by transferring electrons from FMNH to oxygen or ubiquinone-10 in mitochondria.

Keywords

Electron transfer activity FMN Mitochondria NADH Nanodisc mitoNEET

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Grants

  1. R15 GM129564/NIGMS NIH HHS

MeSH Term

Diabetes Mellitus, Type 2
Electrons
Escherichia coli
Flavin Mononucleotide
Humans
Iron-Sulfur Proteins
Membrane Proteins
Mitochondrial Proteins
NAD
Oxidation-Reduction
Oxygen
Ubiquinone

Chemicals

Iron-Sulfur Proteins
Membrane Proteins
Mitochondrial Proteins
NAD
Ubiquinone
Flavin Mononucleotide
Oxygen
Journal Article Research Support, N.I.H., Extramural
Article has an altmetric score of 2

Word Cloud

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