Role of Mitochondrial Fission-related Genes in Mitochondrial Morphology and Energy Metabolism in Mouse Embryonic Stem Cells

Overview

Journal Redox Biol

Specialties Biology
Cell Biology
Endocrinology

Date 2020 Jun 11

PMID 32521505

Citations 20

Authors

Bong Jong Seo

Joonhyuk Choi

Hyeonwoo La

Omer Habib

Youngsok Choi

Kwonho Hong

Jeong Tae Do

Affiliations

Soon will be listed here.

Abstract

Mitochondria, the major organelles that produce energy for cell survival and function, dynamically change their morphology via fusion and fission, a process called mitochondrial dynamics. The details of the underlying mechanism of mitochondrial dynamics have not yet been elucidated. Here, we aimed to investigate the function of mitochondrial fission genes in embryonic stem cells (ESCs). To this end, we generated homozygous knockout ESC lines, namely, Fis1, Mff, and Dnm1l ESCs, using the CRISPR-Cas9 system. Interestingly, the Fis1, Mff, and Dnm1l ESCs showed normal morphology, self-renewal, and the ability to differentiate into all three germ layers in vitro. However, transmission electron microscopy showed a significant increase in the cytoplasm to nucleus ratio and mitochondrial elongation in Dnm1l ESCs, which was due to incomplete fission. To assess the change in metabolic energy, we analyzed oxidative phosphorylation (OXPHOS), glycolysis, and the intracellular ATP concentration. The ESC knockout lines showed an increase in OXPHOS, decrease in glycolysis, and an increase in intracellular ATP concentration, which was related to mitochondrial elongation. In particular, the Dnm1l knockout most significantly affected mitochondrial morphology, energy metabolism, and ATP production in ESCs. Furthermore, RNA sequencing and gene ontology analysis showed that the differentially expressed genes in Mff ESCs were distinct from those in Dnm1l or Fis1 ESCs. In total, five metabolism-related genes, namely, Aass, Cdo1, Cyp2b23, Nt5e, and Pck2, were expressed in all three knockout ESC lines, and three of them were associated with regulation of ATP generation.

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