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Mitochondrial Dysfunction: The Silent Catalyst of Kidney Disease Progression
Nikola Pavlović, Marinela Križanac, Marko Kumrić, Katarina Vukojević, Joško Božić
Cells · 2025 · ▲ 40 citations
Epigenetic alterations
Mitochondrial dysfunction
Altered intercellular communication
Chronic inflammation
Disabled macroautophagy
Partial reprogramming (OSK)
Human
Abstract
Mitochondrial dysfunction(definition) is a pivotal driver in the pathogenesis of acute kidney injury (AKI), chronic kidney disease (CKD), and congenital anomalies of the kidney and urinary tract (CAKUT). The kidneys, second only to the heart in mitochondrial density, rely on oxidative phosphorylation to meet the high ATP demands of solute reabsorption and filtration. Disrupted mitochondrial dynamics, such as excessive fission mediated by Drp1, exacerbate tubular apoptosis and inflammation in AKI models like ischemia–reperfusion injury. In CKD, persistent mitochondrial dysfunction drives oxidative stress, fibrosis, and metabolic reprogramming, with epigenetic mechanisms (DNA methylation, histone modifications, non-coding RNAs) regulating genes critical for mitochondrial homeostasis, such as PMPCB and TFAM. Epigenetic dysregulation also impacts mitochondrial–ER crosstalk, influencing calcium signaling and autophagy(definition) in renal pathology. Mitophagy, the selective clearance of damaged mitochondria, plays a dual role in kidney disease. While PINK1/Parkin-mediated mitophagy protects against cisplatin-induced AKI by preventing mitochondrial fragmentation and apoptosis, its dysregulation contributes to fibrosis and CKD progression. For instance, macrophage-specific loss of mitophagy regulators like MFN2 amplifies ROS production and fibrotic responses. Conversely, BNIP3/NIX-dependent mitophagy attenuates contrast-induced AKI by suppressing NLRP3 inflammasome activation. In diabetic nephropathy, impaired mitophagy correlates with declining eGFR and interstitial fibrosis, highlighting its diagnostic and therapeutic potential. Emerging therapeutic strategies target mitochondrial dysfunction through antioxidants (e.g., MitoQ, SS-31), mitophagy inducers (e.g., COPT nanoparticles), and mitochondrial transplantation, which mitigates AKI by restoring bioenergetics and modulating inflammatory pathways. Nanotechnology-enhanced drug delivery systems, such as curcumin-loaded nanoparticles, improve renal targeting and reduce oxidative stress. Epigenetic interventions, including PPAR-α agonists and KLF4 modulators, show promise in reversing metabolic reprogramming and fibrosis. These advances underscore mitochondria as central hubs in renal pathophysiology. Tailored interventions—ranging from Drp1 inhibition to mitochondrial transplantation—hold transformative potential to mitigate kidney injury and improve clinical outcomes. Additionally, dietary interventions and novel regulators such as adenogens are emerging as promising strategies to modulate mitochondrial function and attenuate kidney disease progression. Future research should address the gaps in understanding the role of mitophagy in CAKUT and optimize targeted delivery systems for precision therapies.
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Provenance
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- OpenAlex
- DOI
- 10.3390/cells14110794
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- 2026-06-26 MST
Cite this
APA
Pavlović, N., Križanac, M., Kumrić, M., Vukojević, K., & Božić, J. (2025). Mitochondrial Dysfunction: The Silent Catalyst of Kidney Disease Progression. <em>Cells</em>. https://doi.org/10.3390/cells14110794
Vancouver
Pavlović N, Križanac M, Kumrić M, Vukojević K, Božić J. Mitochondrial Dysfunction: The Silent Catalyst of Kidney Disease Progression. Cells. 2025. doi:10.3390/cells14110794.
BibTeX
@article{nikola2025Mitoch,
title = {Mitochondrial Dysfunction: The Silent Catalyst of Kidney Disease Progression},
author = {Nikola Pavlović and Marinela Križanac and Marko Kumrić and Katarina Vukojević and Joško Božić},
journal = {Cells},
year = {2025},
doi = {10.3390/cells14110794},
}
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