RRC ID 83814
著者 Matsumoto E, Sasaki T, Higashiyama T, Sasaki N.
タイトル Human RCC1L is involved in the maintenance of mitochondrial nucleoids and mtDNA.
ジャーナル Sci Rep
Abstract Mitochondrial DNA (mtDNA) is organized with proteins into mitochondrial nucleoid (mt-nucleoid). The mt-nucleoid is a unit for the maintenance and function of mtDNA. The regulator of chromosome condensation 1-like protein (RCC1L) performs various functions in mitochondria, including translation, but its involvement in regulating mt-nucleoid maintenance is unknown. Herein, we found that human RCC1L was required to maintain mt-nucleoids and mtDNA. Human RCC1L has three splicing isoforms: RCC1LV1, RCC1LV2, and RCC1LV3. Knockout (KO) cells lacking all RCC1L isoforms, which were lethal without pyruvate and uridine, exhibited a decrease in mt-nucleoids and mtDNA, along with swollen and fragmented mitochondria. Among the three RCC1L isoforms, only RCC1LV1 recovered all phenotypes observed in RCC1L KO cells. As the treatment of wild-type cells with chloramphenicol, a mitochondrial translation inhibitor, did not lead to the decrease in mt-nucleoids accompanied by mtDNA depletion, the decrease in mt-nucleoids and mtDNA in RCC1L KO cells was not solely attributed to impaired mitochondrial translation. Using conditional RCC1L KO cells, we observed a rapid decrease in mt-nucleoids and mtDNA during a specific period following RCC1L loss. Our findings indicate that RCC1L regulates the maintenance of mt-nucleoids and mtDNA besides its role in mitochondrial translational regulation.
巻・号 15(1)
ページ 13811
公開日 2025-4-21
DOI 10.1038/s41598-025-98397-y
PII 10.1038/s41598-025-98397-y
PMID 40259011
PMC PMC12012109
MeSH Cell Cycle Proteins* / genetics Cell Cycle Proteins* / metabolism DNA, Mitochondrial* / genetics DNA, Mitochondrial* / metabolism Humans Mitochondria* / genetics Mitochondria* / metabolism Mitochondrial Proteins* / genetics Mitochondrial Proteins* / metabolism Protein Isoforms / genetics Protein Isoforms / metabolism
IF 3.998
リソース情報
ヒト・動物細胞 HeLa(RCB0007)