Calponin 2 regulates ketogenesis to mitigate acute kidney injury
Yuan Gui, … , Silvia Liu, Dong Zhou
Yuan Gui, … , Silvia Liu, Dong Zhou
Published September 26, 2023
Citation Information: JCI Insight. 2023;8(21):e170521. https://doi.org/10.1172/jci.insight.170521.
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Research Article Nephrology

Calponin 2 regulates ketogenesis to mitigate acute kidney injury

Abstract

Calponin 2 (CNN2) is a prominent actin stabilizer. It regulates fatty acid oxidation (FAO) by interacting with estrogen receptor 2 (ESR2) to determine kidney fibrosis. However, whether CNN2 is actively involved in acute kidney injury (AKI) remains unclear. Here, we report that CNN2 was induced in human and animal kidneys after AKI. Knockdown of CNN2 preserved kidney function, mitigated tubular cell death and inflammation, and promoted cell proliferation. Distinct from kidney fibrosis, proteomics showed that the key elements in the FAO pathway had few changes during AKI, but we identified that 3-hydroxymethylglutaryl-CoA synthase 2 (Hmgcs2), a rate-limiting enzyme of endogenous ketogenesis that promotes cell self-renewal, was markedly increased in CNN2-knockdown kidneys. The production of ketone body β-hydroxybutyrate and ATP was increased in CNN2-knockdown mice. Mechanistically, CNN2 interacted with ESR2 to negatively regulate the activities of mitochondrial sirtuin 5. Activated sirtuin 5 subsequently desuccinylated Hmgcs2 to produce energy for mitigating AKI. Understanding CNN2-mediated discrete fine-tuning of protein posttranslational modification is critical to optimize organ performance after AKI.

Authors

Yuan Gui, Zachary Palanza, Priya Gupta, Hanwen Li, Yuchen Pan, Yuanyuan Wang, Geneva Hargis, Donald L. Kreutzer, Yanlin Wang, Sheldon I. Bastacky, Yansheng Liu, Silvia Liu, Dong Zhou

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Figure 6

Knockdown of CNN2 enhances lysine desuccinylation of HMGCS2 in the kidney after AKI.

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Knockdown of CNN2 enhances lysine desuccinylation of HMGCS2 in the kidne...
(A) Schematic diagram. After IRI at 1 day, in ShNC and ShCNN2 mouse kidneys, (BD) qPCR analyses revealed FOXA2, PPARα, and FGF21 mRNA levels (n = 6). (E and F) Representative Western blots (E) and the quantified data (F) of PPARα (n = 6). (GI) qPCR analyses revealed sirt2, sirt3, and sirt5 mRNA levels. *P < 0.05 (n = 6). (J and K) Representative Western blots (J) and the quantified data (K) of sirt5. *P < 0.05 (n = 6). (L) Representative micrographs for sirt5 staining. Scale bar, 50 µm. Arrows indicate the positive staining. (M and N) Representative Western blot (M) and quantified data (N) of succinyl-lysine motif (Succ-K). *P < 0.05 (n = 6). (O) Immunoprecipitation of endogenous Hmgcs2 from the kidney lysates of ShNC and ShCNN2 mice. (P) Western blot assay demonstrated that knockdown of sirt5 repressed Hmgcs2 expression in NRK-52E cells under hypoxic stress. (Q) Western blot assay demonstrated that knockdown of CNN2 induced ESR2 after IRI. (R) Western blot assay demonstrated that knockdown of ESR2 repressed sirt5 and Hmgcs2 expression in NRK-52E cells under hypoxic stress. (S) Western blot assay demonstrated that estradiol (100 nM) did not induce Hmgcs2 in NRK-52E cells after knockdown of sirt5, compared with scramble controls. (T) Molecular docking analysis showed the binding sites between CNN2 and ESR2. (U) The strategy of designing a mutant form of CNN2. (V) Western blot assay demonstrated that mutant CNN2 (25 ng/mL) did not affect sirt5 and Hmgcs2 expression in NRK-52E cells, compared with active form of CNN2 human recombinant (rb) protein (25 ng/mL). For Western blot panels, numbers indicate individual animals within each group. Graphs are presented as means ± SEM. Differences between groups were analyzed using unpaired t tests.