Literature DB >> 33438576

Stable transplantation of human mitochondrial DNA by high-throughput, pressurized isolated mitochondrial delivery.

Alexander J Sercel1, Alexander N Patananan2, Tianxing Man3, Ting-Hsiang Wu4,5, Amy K Yu1, Garret W Guyot2, Shahrooz Rabizadeh4,5,6,7, Kayvan R Niazi4,5,7,8, Pei-Yu Chiou3,7,8, Michael A Teitell1,2,7,8,9,10,11.   

Abstract

Generating mammalian cells with specific mitochondrial DNA (mtDNA)-nuclear DNA (nDNA) combinations is desirable but difficult to achieve and would be enabling for studies of mitochondrial-nuclear communication and coordination in controlling cell fates and functions. We developed 'MitoPunch', a pressure-driven mitochondrial transfer device, to deliver isolated mitochondria into numerous target mammalian cells simultaneously. MitoPunch and MitoCeption, a previously described force-based mitochondrial transfer approach, both yield stable isolated mitochondrial recipient (SIMR) cells that permanently retain exogenous mtDNA, whereas coincubation of mitochondria with cells does not yield SIMR cells. Although a typical MitoPunch or MitoCeption delivery results in dozens of immortalized SIMR clones with restored oxidative phosphorylation, only MitoPunch can produce replication-limited, non-immortal human SIMR clones. The MitoPunch device is versatile, inexpensive to assemble, and easy to use for engineering mtDNA-nDNA combinations to enable fundamental studies and potential translational applications.
© 2021, Sercel et al.

Entities:  

Keywords:  MitoCeption; MitoPunch; cell biology; human; mitochondrial dna; mitochondrial transfer; mitochondrial transplantation; mouse; rho null; stable isolated mitochondrial recipient

Mesh:

Substances:

Year:  2021        PMID: 33438576      PMCID: PMC7864630          DOI: 10.7554/eLife.63102

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.713


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Review 3.  Mitochondrial DNA Dynamics in Reprogramming to Pluripotency.

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4.  Pressure-Driven Mitochondrial Transfer Pipeline Generates Mammalian Cells of Desired Genetic Combinations and Fates.

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