Kidney mitochondrial DNA contributes to systemic IL-6 release in sepsis-associated acute kidney injury
Avnee J. Kumar, … , Prabhleen Singh, Mark L. Hepokoski
Avnee J. Kumar, … , Prabhleen Singh, Mark L. Hepokoski
Published December 8, 2025
Citation Information: JCI Insight. 2025;10(23):e177004. https://doi.org/10.1172/jci.insight.177004.
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Research Article Inflammation Nephrology

Kidney mitochondrial DNA contributes to systemic IL-6 release in sepsis-associated acute kidney injury

Abstract

Mitochondrial dysfunction is a major mechanism of acute kidney injury (AKI), and increased circulating interleukin 6 (IL-6) is associated with systemic inflammation and death due to sepsis. We tested whether kidney mitochondrial DNA (mtDNA) contributes to IL-6 release in sepsis-associated AKI via Toll-like receptor 9 (TLR9). In a murine model of sepsis via cecal ligation and puncture (CLP), we used next-generation sequencing of plasma mtDNA to inform the design of optimal target sequences for quantification by droplet digital PCR, and to identify single-nucleotide polymorphisms (SNPs) to infer tissue origin. We found significantly higher concentrations of plasma mtDNA after CLP versus shams and that plasma mtDNA SNPs matched kidney SNPs more than other organs. Kidney mtDNA contributed directly to IL-6 and mtDNA release from dendritic cells in vitro and kidney mitochondria solution led to higher IL-6 concentrations in vivo. IL-6 release was mitigated by a TLR9 inhibitor. Finally, plasma mtDNA was significantly higher in septic patients with AKI compared with those without AKI and correlated significantly with plasma IL-6. We conclude that AKI contributes to increased circulating IL-6 in sepsis via mtDNA release. Targeting kidney mitochondria and mtDNA release are potential translational avenues to decrease mortality from sepsis-associated AKI.

Authors

Avnee J. Kumar, Katharine Epler, Jing Wang, Alice Shen, Negin Samandari, Mark L. Rolfsen, Laura A. Barnes, Gerald S. Shadel, Alexandra G. Moyzis, Alva G. Sainz, Karlen Ulubabyan, Kefeng Li, Kristen Jepsen, Xinrui Li, Mark M. Fuster, Roger G. Spragg, Roman Sasik, Volker Vallon, Helen Goodluck, Joachim H. Ix, Prabhleen Singh, Mark L. Hepokoski

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Figure 6

CpG in vitro in DCs and kidney mtDAMP in vivo contributes to IL-6 release.

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CpG in vitro in DCs and kidney mtDAMP in vivo contributes to IL-6 releas...
(A) DCs isolated from mouse bone marrow were treated with CpG (1 μM) as a positive control or kidney mtDNA (10 μg/mL) and incubated for 4 hours prior to quantification of IL-6 in the culture supernatant. Additional cells were additionally treated with TLR9 inhibitor. Cells treated with CpG and mtDNA had a significant increase in IL-6 in supernatant compared to controls. However, IL-6 concentrations in supernatants from cells treated with mtDNA and a TLR9 inhibitor decreased significantly from mtDNA treatment alone. (B) Mice were treated with mtDAMPs followed by measurement of plasma IL-6 at 4 hours with and without TLR9 inhibition. Plasma IL-6 concentrations were increased significantly in mice at 4 hours following subcutaneous injection of mtDAMPs vs normal saline (control). Plasma IL-6 concentrations decreased significantly after mtDNA plus TLR9 inhibition compared mtDNA alone. (C) mtDNA levels were measurable via CYTB. Significant differences between groups were determined by 1-way ANOVA with Fisher’s LSD (A and B) or Tukey’s (C) post hoc analysis. Experiment in A was completed 3 separate times. A, n = 5 wells/group; B, n = 4/group.