Proteomic Shifts Reflecting Oxidative Stress and Reduced Capacity for Protein Synthesis, and Alterations to Mitochondrial Membranes in Neurospora crassa Lacking VDAC.

Sabbir R Shuvo,Anna Motnenko,Deborah A Court,Oleg V Krokhin,Victor Spicer

doi:10.3390/microorganisms10020198

Sabbir R Shuvo, Anna Motnenko + Show 3 more

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https://doi.org/10.3390/microorganisms10020198

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Abstract

Voltage-dependent anion-selective channels (VDAC) maintain the bidirectional flow of small metabolites across the mitochondrial outer membrane and participate in the regulation of multiple cellular processes. To understand the roles of VDAC in cellular homeostasis, preliminary proteomic analyses of S100 cytosolic and mitochondria-enriched fractions from a VDAC-less Neurospora crassa strain (ΔPor-1) were performed. In the variant cells, less abundant proteins include subunits of translation initiation factor eIF-2, enzymes in the shikimate pathway leading to precursors of aromatic amino acids, and enzymes involved in sulfate assimilation and in the synthesis of methionine, cysteine, alanine, serine, and threonine. In contrast, some of the more abundant proteins are involved in electron flow, such as the α subunit of the electron transfer flavoprotein and lactate dehydrogenase, which is involved in one pathway leading to pyruvate synthesis. Increased levels of catalase and catalase activity support predicted increased levels of oxidative stress in ΔPor-1 cells, and higher levels of protein disulfide isomerase suggest activation of the unfolded protein response in the endoplasmic reticulum. ΔPor-1 cells are cold-sensitive, which led us to investigate the impact of the absence of VDAC on several mitochondrial membrane characteristics. Mitochondrial membranes in ΔPor-1 are more fluid than those of wild-type cells, the ratio of C18:1 to C18:3n3 acyl chains is reduced, and ergosterol levels are lower. In summary, these initial results indicate that VDAC-less N. crassa cells are characterized by a lower abundance of proteins involved in amino acid and protein synthesis and by increases in some associated with pyruvate metabolism and stress responses. Membrane lipids and hyphal morphology are also impacted by the absence of VDAC.

Highlights

To further enhance the understanding of the global responses associated with the absence of voltage-dependent anion-selective channels (VDAC) in N. crassa, preliminary proteomic analyses of samples enriched in mitochondria, and fractions enriched in cytosolic proteins by centrifugation of cell lysates at 100,000× g, were carried out
Preliminary proteomic analysis of mitochondrial and S100, cytosolenriched protein samples provided insights into the mechanisms related to survival of
Proteins involved in oxidative stress responses were more abundant, suggesting increased levels of reactive oxygen species (ROS), as predicted from recent work demonstrating that ∆Por-1 mitochondria have an increased capacity for ROS production [13] and comparisons of whole-cell

Summary

Introduction

The mitochondrial outer membrane (MOM) harbours mitochondrial porins, known as voltage-dependent anion-selective channels (VDAC). These proteins are composed of 19 β-strands and an N-terminal α-helix [1,2,3,4] and form aqueous channels linking the intermembrane space and the cytosol [5]. The N-terminus of VDAC is proposed to participate in the gating of VDAC between these two states [8,9,10]. Neurospora crassa is a useful model organism for the investigation of the functions of VDAC, as a single VDAC isoform is Microorganisms 2022, 10, 198.

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