Mitochondrial Rejuvenation After Induced Pluripotency

Suhr, Steven T.; Chang, Eun Ah; Tjong, Jonathan; Alcasid, Nathan; Perkins, Guy; Goissis, Marcelo Demarchi; Ellisman, Mark H.; Perez, Gloria I.; Cibelli, José B.

doi:10.1371/journal.pone.0014095

Cited by 207 publications

(205 citation statements)

References 38 publications

(57 reference statements)

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“…These mitochondrial changes also impacted the cellular bioenergetic profile, which shifted from OXPHOS to glycolysis upon reprogramming and returned to OXPHOS during subsequent differentiation [18,19]. Other groups confirmed these results and showed that mitochondria within human iPSCs exhibits low oxidative stress [20] and energetic rejuvenation [21]. Moreover, small molecules inducing metabolic switch toward glycolytic metabolism enhanced reprogramming efficiency [22].…”

Section: Introductionmentioning

confidence: 86%

Human Induced Pluripotent Stem Cells Harbor Homoplasmic and Heteroplasmic Mitochondrial DNA Mutations While Maintaining Human Embryonic Stem Cell–like Metabolic Reprogramming

et al. 2011

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Human induced pluripotent stem cells (iPSCs) have been recently found to harbor genomic alterations. However, the integrity of mitochondrial DNA (mtDNA) within reprogrammed cells has yet to be investigated. mtDNA mutations occur at a high rate and contribute to the pathology of a number of human disorders. Furthermore, the lack of mtDNA integrity may alter cellular bioenergetics and limit efficient differentiation. We demonstrated previously that the derivation of iPSCs is associated with mitochondrial remodeling and a metabolic switch towards glycolysis. Here, we have discovered that alterations of mtDNA can occur upon the induction of pluripotency. Massively parallel pyrosequencing of mtDNA revealed that human iPSCs derived from young healthy donors harbored single base mtDNA mutations (substitutions, insertions, and deletions), both homoplasmic (in all mtDNA molecules) and heteroplasmic (in a fraction of mtDNAs), not present in the parental cells. mtDNA modifications were mostly common variants and not disease related. Moreover, iPSC lines bearing different mtDNA mutational loads maintained a consistent human embryonic stem cell-like reprogramming of energy metabolism. This involved the upregulation of glycolytic enzymes, increased glucose-6-phosphate levels, and the over-expression of pyruvate dehydrogenase kinase 1 protein, which reroutes the bioenergetic flux toward glycolysis. Hence, mtDNA mutations within iPSCs may not necessarily impair the correct establishment of pluripotency and the associated metabolic reprogramming. Nonetheless, the occurrence of pathogenic mtDNA modifications might be an important aspect to monitor when characterizing iPSC lines. Finally, we speculate that this random rearrangement of mtDNA molecules might prove beneficial for the derivation of mutation-free iPSCs from patients with mtDNA disorders.

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Section: Introductionmentioning

confidence: 86%

Human Induced Pluripotent Stem Cells Harbor Homoplasmic and Heteroplasmic Mitochondrial DNA Mutations While Maintaining Human Embryonic Stem Cell–like Metabolic Reprogramming

et al. 2011

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“…Interestingly, iPS cells not only express stem cell markers, but also stem cell characteristics including anaerobic metabolism, low reactive oxygen species generation and decrease in mitochondrial mass and number (Armstrong et al, 2010;Prigione et al, 2010;Suhr et al, 2010). It has been suggested that the decrease in mitochondrial numbers contributes to lower generation of superoxide ions in iPS cells as compared to their progenitors (Vessoni et al, 2012).…”

Section: Possible Role Of Autophagy In Ips Cell Generationmentioning

confidence: 99%

Reprogramming and Carcinogenesis—Parallels and Distinctions

Wasik

Grabarek

Pantovic

et al. 2014

International Review of Cell and Molecular Biology

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Abbreviations: CDK -Cyclin-Dependent Kinase; CSC -cancer stem cells; DSB -double strand breaks ; ECM -extracellular matrix; ES cell -embryonic stem cell; GFP -green fluorescent protein; GSK3 -glycogen synthase kinase-3; HN -Hemagglutininneuraminidase; iPS -induced pluripotent stem cells; MSFs -myocardial scar fibroblasts; RB -Retinoblastoma protein; RGD -arginine-glycine-aspartic acid; RISC -RNA-induced silencing complex; Shc -Src homology 2 domain-containing.

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“…Recent studies have shown that iPSC-derived cells may also display functional improvements when compared to the parental cells from which these iPSC were originally reprogrammed, indicating that they can be a preferred source for autologous cell-based therapies. For example, fibroblasts differentiated from iPSC displayed improved functional features, such as extended replicative potential, increased mitochondrial function, 1,2 and wound reparative potential. 3 Acquisition of these features suggests that iPSC are rapidly becoming a renewable source for regenerative therapies of the oral mucosa.…”

Section: Scope and Significancementioning

confidence: 99%

“…4 There is intriguing evidence that iPSC reprogramming may improve cellular function upon iPSC differentiation to a fibroblast lineage. 1,3,5 In this light, the use of iPSC-derived fibroblasts may circumvent the limitations of existing sources of fibroblasts that are currently used for tissue repair. This suggests that it may soon be possible to leverage the biological potential of iPSC-derived cells to improve current strategies for oral mucosal wound healing.…”

Section: Translational Relevancementioning

confidence: 99%

“…For example, it has been shown that iPSC reprogrammed from senescent fibroblasts showed an improvement on a spectrum of functions upon their subsequent differentiation to a fibroblast lineage, that included evasion of cell senescence, elongation of telomeres, and improved mitochondrial function. 1 Additional evidence that an improved repair potential can be acquired after reprogramming and subsequent differentiation were seen in iPSC-derived mesenchymal stem cells (MSC), which showed improved vascular rescue of limb ischemia when compared to adult-derived MSC. 5 Fibroblasts derived from iPSC also have been shown to produce greater amounts of ECM proteins than the parental cells from which they were derived.…”

Section: Generation Of Oral Cell Types From Ipsc Sourcesmentioning

confidence: 99%

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