Study identifies aging-associated mitochondrial circular RNAs

“Here, we report profiles of circular RNAs annotated to mitochondrial chromosome, chrM, in young and old cohorts.”

BUFFALO, NY — February 24, 2026 — A new research paper was published in Volume 18 of Aging-US on February 10, 2026, titled “ Aging-associated mitochondrial circular RNAs .”

Led by first author Hyejin Mun from the University of Oklahoma — with corresponding authors Je-Hyun Yoon from the University of Oklahoma and Young-Kook Kim from Chonnam National University Medical School — the study profiles mitochondrial circular RNAs in Peripheral Blood Mononuclear Cells (PBMCs) from young and old human cohorts and probes how mitochondrial circRNAs and the mitochondrial RNA-binding protein GRSF1 relate to mitochondrial metabolism and cellular senescence.

Using total RNA sequencing of PBMCs from young and old donors and complementary cell-based experiments, the authors report that a large fraction of circular RNA junctions originates from the mitochondrial genome, with MT-RNR2 producing the most abundant circular junctions. They show that circMT-RNR2 levels are depleted in older cohorts and in replicative senescence of human fibroblasts, and that the mitochondria-localized RNA-binding protein GRSF1 interacts with both linear and circular MT-RNR2. Loss of GRSF1 reduced circMT-RNR2 levels, decreased mitochondrial TCA intermediates (fumarate and succinate), and accelerated cellular senescence and mitochondrial dysfunction — findings that link mitochondrial circRNAs to mitochondrial energetics and proliferative status in younger cells.

“Taken together, our findings demonstrate the existence and possible function of circular MT-RNR2 during human aging and senescence, implicating its role in promoting the TCA cycle.”

The authors note key limitations and outline next steps: clarifying the biogenesis mechanism of mitochondrial circular RNAs (including whether trans-splicing contributes), mapping direct interactions between mitochondrial transcripts and metabolic enzymes, and performing mechanistic studies (in vivo and in additional human cohorts) to test how circMT-RNR2 and GRSF1 influence mitochondrial energetics and organismal aging. These follow-ups will determine whether mitochondrial circular RNAs are actionable targets for modulating mitochondrial metabolism or delaying aspects of cellular aging.

Paper DOI : https://doi.org/10.18632/aging.206354

Corresponding authors: Je-Hyun Yoon – jehyun-yoon@ou.edu
Young-Kook Kim – ykk@jnu.ac.kr

Abstract video: https://www.youtube.com/watch?v=f8uZ6_tcOHw

Keywords: circular RNA, MT-RNR2, GRSF1, TCA cycle, aging

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Aging-US

10.18632/aging.206354

News article

Not applicable

Aging-associated mitochondrial circular RNAs

10-Feb-2026

The authors declare no conflicts of interest related to this study.