CaMKIIδ-mediated inflammatory gene expression and inflammasome activation in cardiomyocytes initiate inflammation and induce fibrosis
Andrew Willeford, … , Shigeki Miyamoto, Joan Heller Brown
Andrew Willeford, … , Shigeki Miyamoto, Joan Heller Brown
Published June 21, 2018
Citation Information: JCI Insight. 2018;3(12):e97054. https://doi.org/10.1172/jci.insight.97054.
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Research Article Cardiology Inflammation

CaMKIIδ-mediated inflammatory gene expression and inflammasome activation in cardiomyocytes initiate inflammation and induce fibrosis

Abstract

Inflammation accompanies heart failure and is a mediator of cardiac fibrosis. CaMKIIδ plays an essential role in adverse remodeling and decompensation to heart failure. We postulated that inflammation is the mechanism by which CaMKIIδ contributes to adverse remodeling in response to nonischemic interventions. We demonstrate that deletion of CaMKIIδ in the cardiomyocyte (CKO) significantly attenuates activation of NF-κB, expression of inflammatory chemokines and cytokines, and macrophage accumulation induced by angiotensin II (Ang II) infusion. The inflammasome was activated by Ang II, and this response was also diminished in CKO mice. These events occurred prior to any evidence of Ang II–induced cell death. In addition, CaMKII-dependent inflammatory gene expression and inflammasome priming were observed as early as the third hour of infusion, a time point at which macrophage recruitment was not evident. Inhibition of either the inflammasome or monocyte chemoattractant protein 1 (MCP1) signaling attenuated macrophage accumulation, and these interventions, like cardiomyocyte CaMKIIδ deletion, diminished the fibrotic response to Ang II. Thus, activation of CaMKIIδ in the cardiomyocyte represents what we believe to be a novel mechanism for initiating inflammasome activation and an inflammatory gene program that leads to macrophage recruitment and ultimately to development of fibrosis.

Authors

Andrew Willeford, Takeshi Suetomi, Audrey Nickle, Hal M. Hoffman, Shigeki Miyamoto, Joan Heller Brown

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Figure 5

Ang II and CaMKIIδ prime and induce ROS-dependent inflammasome activation in cardiomyocytes.

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Ang II and CaMKIIδ prime and induce ROS-dependent inflammasome activatio...
(A) mRNA expression of Il1b and Nlrp3 as measured by qPCR in adult mouse ventricular cardiomyocytes isolated from mice after 1 day of Ang II infusion (n = 3/group). (B) Western blot and quantitation of NLRP3 protein in NRVMs infected with adenovirus expressing GFP (AdGFP) or the active δC isoform of CaMKII (AdCaMKIIδ) at an MOI of 50. NRVMs were starved for 5 hours prior to a 3-hour infection, then washed with serum-free medium and cultured overnight. tCaMKIIδ, total CaMKIIδ; GAPDH, loading control (n = 5/group). (C) Fluorescence microscopy of NRVMs transfected with cDNA encoding GFP-tagged ASC and infected with adenovirus expressing β-galactosidase (AdLacZ) or AdCaMKIIδ at an MOI of 50. Quantitation represents percentage of all transfected cells that were speck-positive from 2 independent experiments, with 220–588 total transfected cells counted per group (n = 6/group from 2 independent experiments). (D) Live cell images and quantitation of fluorescence in NRVMs infected with AdLacZ or AdCaMKIIδ and cultured as described above. MitoSOX (5 μmol/l) and MitoTracker green (1 mmol/l) were used to visualize mitochondrial ROS and mitochondria. Data were quantified from 10 images per sample (n = 7/group from 2 independent experiments). (E) Caspase-1 activity measured in NRVMs infected with AdGFP or AdCaMKIIδ with or without a 1-hour pretreatment with 10 mmol/l N-acetylcysteine (NAC) or 10 μmol/l MitoTEMPO (n = 4–5/group from 2 independent experiments). Student’s t test was used in AD, and 1-way ANOVA was used in E. *P < 0.05 vs. Veh, AdGFP, or AdLacZ; **P < 0.01 vs. Veh or AdLacZ; #P < 0.05, AdCaMKIIδ alone vs. NAC or MitoTEMPO pretreatment. Scale bars: 15 μm.