Myo-inositol oxygenase expression profile modulates pathogenic ferroptosis in the renal proximal tubule
Fei Deng, … , Ming Yang, Yashpal S. Kanwar
Fei Deng, … , Ming Yang, Yashpal S. Kanwar
Published August 22, 2019
Citation Information: J Clin Invest. 2019;129(11):5033-5049. https://doi.org/10.1172/JCI129903.
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Research Article Nephrology

Myo-inositol oxygenase expression profile modulates pathogenic ferroptosis in the renal proximal tubule

Abstract

Overexpression of myo-inositol oxygenase (MIOX), a proximal tubular enzyme, exacerbates cellular redox injury in acute kidney injury (AKI). Ferroptosis, a newly coined term associated with lipid hydroperoxidation, plays a critical role in the pathogenesis of AKI. Whether or not MIOX exacerbates tubular damage by accelerating ferroptosis in cisplatin-induced AKI remains elusive. Cisplatin-treated HK-2 cells exhibited notable cell death, which was reduced by ferroptosis inhibitors. Also, alterations in various ferroptosis metabolic sensors, including lipid hydroperoxidation, glutathione peroxidase 4 (GPX4) activity, NADPH and reduced glutathione (GSH) levels, and ferritinophagy, were observed. These perturbations were accentuated by MIOX overexpression, while ameliorated by MIOX knockdown. Likewise, cisplatin-treated CD1 mice exhibited tubular damage and derangement of renal physiological parameters, which were alleviated by ferrostatin-1, a ferroptosis inhibitor. To investigate the relevance of MIOX to ferroptosis, WT mice, MIOX-overexpressing transgenic (MIOX-Tg) mice, and MIOX-KO mice were subjected to cisplatin treatment. In comparison with cisplatin-treated WT mice, cisplatin-treated MIOX-Tg mice had more severe renal pathological changes and perturbations in ferroptosis metabolic sensors, which were minimal in cisplatin-treated MIOX-KO mice. In conclusion, these findings indicate that ferroptosis, an integral process in the pathogenesis of cisplatin-induced AKI, is modulated by the expression profile of MIOX.

Authors

Fei Deng, Isha Sharma, Yingbo Dai, Ming Yang, Yashpal S. Kanwar

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Figure 2

Ferroptosis is an essential part of cisplatin-induced HK-2 cell death.

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Ferroptosis is an essential part of cisplatin-induced HK-2 cell death. N...
Normally, the HK-2 cells exhibited a flat epithelial morphology, demonstrated by phase-contrast microscopy and direct visualization of H&E staining (A and D, red arrow and arrowhead). Cisplatin (CP) treatment caused shrinkage of HK-2 cells (B and E, yellow arrows and arrowheads), while cotreatment of cisplatin and Fer-1 led to a reversion of their morphology (C and F, blue arrow and arrowhead). TUNEL staining revealed notable DNA damage in cisplatin-treated HK-2 cells, and cotreatment with Fer-1 reduced the cell death (GI). MTT assay revealed reduced cell viability following cisplatin exposure, which was rescued by Fer-1 treatment (J) (n = 6; *P < 0.05 compared with the control group, #P < 0.05 compared with the CP group, 1-way ANOVA with Dunn’s multiple comparisons). Deferoxamine (DFO) and Z-VAD(OMe)-FMK (VAD) treatment also led to an increased survival of cells, while Nec-1 was ineffective (J and K) (n = 6; *P < 0.05 compared with the control group, #P < 0.05 compared with the CP group, 1-way ANOVA with Dunn’s multiple comparisons). To investigate the intracellular dynamics of iron in HK-2 cells following cisplatin treatment, distribution of ferrum and heavy chain of ferritin (FTH1) was assessed. FTH1 was found distributed diffusely in the cytoplasm (green) and minimally in the lysosomes (red) (LN). Interestingly, FTH1 was seen heavily colocalized in the lysosomes following cisplatin treatment (OQ). The ferrum was also found to be marginally codistributed within the lysosomes, and the codistribution markedly increased following cisplatin treatment (RW). Scale bars: 30 μm.