Mitochondrial fission - changing perspectives for future progress

doi:10.1242/jcs.263640

Review

. 2025 May 1;138(9):jcs263640.

doi: 10.1242/jcs.263640. Epub 2025 Mar 19.

Mitochondrial fission - changing perspectives for future progress

Sukrut C Kamerkar¹, Ao Liu¹, Henry N Higgs¹

Affiliations

PMID: 40104946
PMCID: PMC12136174 (available on 2026-03-19)
DOI: 10.1242/jcs.263640

Review

Mitochondrial fission - changing perspectives for future progress

Sukrut C Kamerkar et al. J Cell Sci. 2025.

. 2025 May 1;138(9):jcs263640.

doi: 10.1242/jcs.263640. Epub 2025 Mar 19.

Authors

Sukrut C Kamerkar¹, Ao Liu¹, Henry N Higgs¹

Affiliation

¹ Department of Biochemistry and Cell Biology, Geisel School of Medicine at Dartmouth College, Hanover, NH 03755, USA.

PMID: 40104946
PMCID: PMC12136174 (available on 2026-03-19)
DOI: 10.1242/jcs.263640

Abstract

Mitochondrial fission is important for many aspects of cellular homeostasis, including mitochondrial distribution, stress response, mitophagy, mitochondrially derived vesicle production and metabolic regulation. Several decades of research has revealed much about fission, including identification of a key division protein - the dynamin Drp1 (also known as DNM1L) - receptors for Drp1 on the outer mitochondrial membrane (OMM), including Mff, MiD49 and MiD51 (also known as MIEF2 and MIEF1, respectively) and Fis1, and important Drp1 regulators, including post-translational modifications, actin filaments and the phospholipid cardiolipin. In addition, it is now appreciated that other organelles, including the endoplasmic reticulum, lysosomes and Golgi-derived vesicles, can participate in mitochondrial fission. However, a more holistic understanding of the process is lacking. In this Review, we address three questions that highlight knowledge gaps. First, how do we quantify mitochondrial fission? Second, how does the inner mitochondrial membrane (IMM) divide? Third, how many 'types' of fission exist? We also introduce a model that integrates multiple regulatory factors in mammalian mitochondrial fission. In this model, three possible pathways (cellular stimulation, metabolic switching or mitochondrial dysfunction) independently initiate Drp1 recruitment at the fission site, followed by a shared second step in which Mff mediates subsequent assembly of a contractile Drp1 ring. We conclude by discussing some perplexing issues in fission regulation, including the effects of Drp1 phosphorylation and the multiple Drp1 isoforms.

Keywords: Drp1 receptors; Dynamin related protein-1; Inner mitochondrial membrane division; Mitochondrial fission.

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Conflict of interest statement

Competing interests The authors declare no competing or financial interests.

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References

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1. Adachi, Y., Kato, T., Yamada, T., Murata, D., Arai, K., Stahelin, R. V., Chan, D. C., Iijima, M. and Sesaki, H. (2020). Drp1 tubulates the ER in a GTPase-independent manner. Mol. Cell 80, 621-632.e6. 10.1016/j.molcel.2020.10.013 - DOI - PMC - PubMed
1. Ahn, C. S. and Metallo, C. M. (2015). Mitochondria as biosynthetic factories for cancer proliferation. Cancer Metab. 3, 1. 10.1186/s40170-015-0128-2 - DOI - PMC - PubMed
1. Anand, R., Wai, T., Baker, M. J., Kladt, N., Schauss, A. C., Rugarli, E. and Langer, T. (2014). The i -AAA protease YME1L and OMA1 cleave OPA1 to balance mitochondrial fusion and fission. J. Cell Biol. 204, 919-929. 10.1083/jcb.201308006 - DOI - PMC - PubMed

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[1] Abrisch, R. G., Gumbin, S. C., Wisniewski, B. T., Lackner, L. L. and Voeltz, G. K. (2020). Fission and fusion machineries converge at ER contact sites to regulate mitochondrial morphology. J. Cell Biol. 219, e201911122. 10.1083/jcb.201911122 - DOI - PMC - PubMed

[2] Abrisch, R. G., Gumbin, S. C., Wisniewski, B. T., Lackner, L. L. and Voeltz, G. K. (2020). Fission and fusion machineries converge at ER contact sites to regulate mitochondrial morphology. J. Cell Biol. 219, e201911122. 10.1083/jcb.201911122 - DOI - PMC - PubMed

[3] Adachi, Y., Itoh, K., Yamada, T., Cerveny, K. L., Suzuki, T. L., Macdonald, P., Frohman, M. A., Ramachandran, R., Iijima, M. and Sesaki, H. (2016). Coincident phosphatidic acid interaction restrains Drp1 in mitochondrial division. Mol. Cell 63, 1034-1043. 10.1016/j.molcel.2016.08.013 - DOI - PMC - PubMed

[4] Adachi, Y., Itoh, K., Yamada, T., Cerveny, K. L., Suzuki, T. L., Macdonald, P., Frohman, M. A., Ramachandran, R., Iijima, M. and Sesaki, H. (2016). Coincident phosphatidic acid interaction restrains Drp1 in mitochondrial division. Mol. Cell 63, 1034-1043. 10.1016/j.molcel.2016.08.013 - DOI - PMC - PubMed

[5] Adachi, Y., Kato, T., Yamada, T., Murata, D., Arai, K., Stahelin, R. V., Chan, D. C., Iijima, M. and Sesaki, H. (2020). Drp1 tubulates the ER in a GTPase-independent manner. Mol. Cell 80, 621-632.e6. 10.1016/j.molcel.2020.10.013 - DOI - PMC - PubMed

[6] Adachi, Y., Kato, T., Yamada, T., Murata, D., Arai, K., Stahelin, R. V., Chan, D. C., Iijima, M. and Sesaki, H. (2020). Drp1 tubulates the ER in a GTPase-independent manner. Mol. Cell 80, 621-632.e6. 10.1016/j.molcel.2020.10.013 - DOI - PMC - PubMed

[7] Ahn, C. S. and Metallo, C. M. (2015). Mitochondria as biosynthetic factories for cancer proliferation. Cancer Metab. 3, 1. 10.1186/s40170-015-0128-2 - DOI - PMC - PubMed

[8] Ahn, C. S. and Metallo, C. M. (2015). Mitochondria as biosynthetic factories for cancer proliferation. Cancer Metab. 3, 1. 10.1186/s40170-015-0128-2 - DOI - PMC - PubMed

[9] Anand, R., Wai, T., Baker, M. J., Kladt, N., Schauss, A. C., Rugarli, E. and Langer, T. (2014). The i -AAA protease YME1L and OMA1 cleave OPA1 to balance mitochondrial fusion and fission. J. Cell Biol. 204, 919-929. 10.1083/jcb.201308006 - DOI - PMC - PubMed

[10] Anand, R., Wai, T., Baker, M. J., Kladt, N., Schauss, A. C., Rugarli, E. and Langer, T. (2014). The i -AAA protease YME1L and OMA1 cleave OPA1 to balance mitochondrial fusion and fission. J. Cell Biol. 204, 919-929. 10.1083/jcb.201308006 - DOI - PMC - PubMed

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Mitochondrial fission - changing perspectives for future progress

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Mitochondrial fission - changing perspectives for future progress

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