AI Article Synopsis
- The study reveals a significant fivefold difference in survival among Bcs1l mice with respiratory chain complex III (CIII) deficiency, linked to a specific mitochondrial DNA mutation (m.G14904A) in the cytochrome b subunit.
- Researchers demonstrated that this mutation further reduces CIII activity to critical levels, leading to decreased lifespans in those mice.
- The findings illustrate a unique interaction between mitochondrial and nuclear genes, emphasizing the impact of mitochondrial DNA variations on the severity of mitochondrial diseases.
Article Abstract
We previously observed an unexpected fivefold (35 vs. 200 days) difference in the survival of respiratory chain complex III (CIII) deficient Bcs1l mice between two congenic backgrounds. Here, we identify a spontaneous homoplasmic mtDNA variant (m.G14904A, mt-Cyb), affecting the CIII subunit cytochrome b (MT-CYB), in the background with short survival. We utilize maternal inheritance of mtDNA to confirm this as the causative variant and show that it further decreases the low CIII activity in Bcs1l tissues to below survival threshold by 35 days of age. Molecular dynamics simulations predict D254N to restrict the flexibility of MT-CYB ef loop, potentially affecting RISP dynamics. In Rhodobacter cytochrome bc complex the equivalent substitution causes a kinetics defect with longer occupancy of RISP head domain towards the quinol oxidation site. These findings represent a unique case of spontaneous mitonuclear epistasis and highlight the role of mtDNA variation as modifier of mitochondrial disease phenotypes.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6965120 | PMC |
| http://dx.doi.org/10.1038/s41467-019-14201-2 | DOI Listing |
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