Mutations of many PDSS and COQ genes are associated with primary coenzyme Q (CoQ) deficiency, whereas mitochondrial DNA (mtDNA) mutations might cause secondary CoQ deficiency. Previously, we found that COQ5 and COQ9 proteins are present in different protein complexes in the mitochondria in human 143B cells and demonstrated that COQ5 and COQ9 knockdown suppresses CoQ levels. In the present study, we characterized other PDSS and COQ proteins and examined possible crosstalk among various PDSS and COQ proteins. Specific antibodies and mitochondrial localization of mature proteins for these proteins, except PDSS1 and COQ2, were identified. Multiple isoforms of PDSS2 and COQ3 were observed. Moreover, PDSS1, PDSS2, and COQ3 played more important roles in maintaining the stability of the other proteins. Protein complexes containing PDSS2, COQ3, COQ4, COQ6, or COQ7 protein in the mitochondria were detected. Two distinct PDSS2-containing protein complexes could be identified. Transient knockdown of these genes, except COQ6 and COQ8, decreased CoQ levels, but only COQ7 knockdown hampered mitochondrial respiration and caused increased ubiquinol:ubiquinone ratios and accumulation of a putative biosynthetic intermediate with reversible redox property as CoQ. Furthermore, suppressed levels of PDSS2 and various COQ proteins (except COQ3 and COQ8A) were found in cybrids containing the pathogenic mtDNA A8344G mutation or in FCCP-treated 143B cells, which was similar to our previous findings for COQ5. These novel findings may prompt the elucidation of the putative CoQ synthome in human cells and the understanding of these PDSS and COQ protein under physiological and pathological conditions.
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Alterations in coenzyme Q status in a cybrid line harboring the 3243A>G mutation of mitochondrial DNA is associated with abnormal mitochondrial bioenergetics and dysregulated mitochondrial biogenesis.
Biochim Biophys Acta Bioenerg
November 2024
Department of Medical Biotechnology and Laboratory Science, College of Medicine, Chang Gung University, Taoyuan, Taiwan.
Article Synopsis
- Mitochondrial DNA mutations, particularly the m.3243A>G mutation linked to MELAS, lead to Coenzyme Q (CoQ) deficiency, affecting mitochondrial function.
- The study found that mutant cybrids showed reduced energy production, impaired respiratory function, and lower CoQ levels compared to wild-type cybrids.
- Changes in gene expression and protein levels were observed in mutant cybrids, indicating disrupted mitochondrial energy pathways and differences in CoQ ratios compared to other mutations.
Characterization of human mitochondrial PDSS and COQ proteins and their roles in maintaining coenzyme Q levels and each other's stability.
Biochim Biophys Acta Bioenerg
July 2020
Department of Medical Biotechnology and Laboratory Science, College of Medicine, Chang Gung University, Taoyuan, Taiwan.
Mutations of many PDSS and COQ genes are associated with primary coenzyme Q (CoQ) deficiency, whereas mitochondrial DNA (mtDNA) mutations might cause secondary CoQ deficiency. Previously, we found that COQ5 and COQ9 proteins are present in different protein complexes in the mitochondria in human 143B cells and demonstrated that COQ5 and COQ9 knockdown suppresses CoQ levels. In the present study, we characterized other PDSS and COQ proteins and examined possible crosstalk among various PDSS and COQ proteins.
View Article and Find Full Text PDFDisruption of the human COQ5-containing protein complex is associated with diminished coenzyme Q10 levels under two different conditions of mitochondrial energy deficiency.
Biochim Biophys Acta
September 2016
College of Medicine, Chang Gung University and Department of Neurology, Chang Gung Memorial Hospital, Taoyuan, Taiwan.
Background: The Coq protein complex assembled from several Coq proteins is critical for coenzyme Q6 (CoQ6) biosynthesis in yeast. Secondary CoQ10 deficiency is associated with mitochondrial DNA (mtDNA) mutations in patients. We previously demonstrated that carbonyl cyanide-p-trifluoromethoxyphenylhydrazone (FCCP) suppressed CoQ10 levels and COQ5 protein maturation in human 143B cells.
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Free Radic Res
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Department and Graduate Institute of Medical Biotechnology and Laboratory Science, College of Medicine, Chang Gung University, Taoyuan , Taiwan.
Endogenous coenzyme Q10 (CoQ10) is a lipid-soluble antioxidant and essential for the electron transport chain. We previously demonstrated that hydrogen peroxide enhanced CoQ10 levels, whereas disruption of mitochondrial membrane potential by a chemical uncoupler suppressed CoQ10 levels, in human 143B cells. In this study, we investigated how CoQ10 levels and expression of two PDSS and eight COQ genes were affected by oligomycin, which inhibited ATP synthesis at Complex V without uncoupling the mitochondria.
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