1. Natural underlying mtDNA heteroplasmy as a potential source of intra-person hiPSC variability.
- Author
-
Perales‐Clemente, Ester, Cook, Alexandra N, Evans, Jared M, Roellinger, Samantha, Secreto, Frank, Emmanuele, Valentina, Oglesbee, Devin, Mootha, Vamsi K, Hirano, Michio, Schon, Eric A, Terzic, Andre, and Nelson, Timothy J
- Subjects
- *
MITOCHONDRIAL DNA , *INDUCED pluripotent stem cells , *GENETIC mutation , *HEART cells , *GLYCOLYSIS - Abstract
Functional variability among human clones of induced pluripotent stem cells (hiPSCs) remains a limitation in assembling high-quality biorepositories. Beyond inter-person variability, the root cause of intra-person variability remains unknown. Mitochondria guide the required transition from oxidative to glycolytic metabolism in nuclear reprogramming. Moreover, mitochondria have their own genome (mitochondrial DNA [mtDNA]). Herein, we performed mtDNA next-generation sequencing (NGS) on 84 hiPSC clones derived from a cohort of 19 individuals, including mitochondrial and non-mitochondrial patients. The analysis of mtDNA variants showed that low levels of potentially pathogenic mutations in the original fibroblasts are revealed through nuclear reprogramming, generating mutant hiPSCs with a detrimental effect in their differentiated progeny. Specifically, hiPSC-derived cardiomyocytes with expanded mtDNA mutations non-related with any described human disease, showed impaired mitochondrial respiration, being a potential cause of intra-person hiPSC variability. We propose mtDNA NGS as a new selection criterion to ensure hiPSC quality for drug discovery and regenerative medicine. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF