Calcium/calmodulin-dependent protein kinase II links ER stress with Fas and mitochondrial apoptosis pathways
Jenelle M. Timmins, … , Mark E. Anderson, Ira Tabas
Jenelle M. Timmins, … , Mark E. Anderson, Ira Tabas
Published September 8, 2009
Citation Information: J Clin Invest. 2009;119(10):2925-2941. https://doi.org/10.1172/JCI38857.
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Research Article Cell biology

Calcium/calmodulin-dependent protein kinase II links ER stress with Fas and mitochondrial apoptosis pathways

Abstract

ER stress–induced apoptosis is implicated in various pathological conditions, but the mechanisms linking ER stress–mediated signaling to downstream apoptotic pathways remain unclear. Using human and mouse cell culture and in vivo mouse models of ER stress–induced apoptosis, we have shown that cytosolic calcium resulting from ER stress induces expression of the Fas death receptor through a pathway involving calcium/calmodulin-dependent protein kinase IIγ (CaMKIIγ) and JNK. Remarkably, CaMKIIγ was also responsible for processes involved in mitochondrial-dependent apoptosis, including release of mitochondrial cytochrome c and loss of mitochondrial membrane potential. CaMKII-dependent apoptosis was also observed in a number of cultured human and mouse cells relevant to ER stress–induced pathology, including cultured macrophages, endothelial cells, and neuronal cells subjected to proapoptotic ER stress. Moreover, WT mice subjected to systemic ER stress showed evidence of macrophage mitochondrial dysfunction and apoptosis, renal epithelial cell apoptosis, and renal dysfunction, and these effects were markedly reduced in CaMKIIγ-deficient mice. These data support an integrated model in which CaMKII serves as a unifying link between ER stress and the Fas and mitochondrial apoptotic pathways. Our study also revealed what we believe to be a novel proapoptotic function for CaMKII, namely, promotion of mitochondrial calcium uptake. These findings raise the possibility that CaMKII inhibitors could be useful in preventing apoptosis in pathological settings involving ER stress–induced apoptosis.

Authors

Jenelle M. Timmins, Lale Ozcan, Tracie A. Seimon, Gang Li, Cristina Malagelada, Johannes Backs, Thea Backs, Rhonda Bassel-Duby, Eric N. Olson, Mark E. Anderson, Ira Tabas

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Figure 5

Release of mitochondrial cytochrome c and Δψm in cholesterol-loaded macrophages is dependent on CaMKII.

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Release of mitochondrial cytochrome c and Δψm in cholesterol-loaded macr...
(A) Macrophages were incubated under control or cholesterol-loading conditions for 12 or 16 hours in the absence or presence of 10 μM KN93 or KN92 after 1 hour pretreatment. Cells were then stained with MitoTracker Red and examined by confocal fluorescence microscopy. Mean fluorescence intensity per cell is also shown (n = 100 cells). (B) Macrophages from WT or Camk2g–/– mice were incubated under control or cholesterol-loading conditions for 12 hours and then assayed for MitoTracker Red staining. (C) Macrophages were treated for 8 hours as in A. Mitochondrial and cytosolic fractions were assayed for cytochrome c, tubulin (cytosolic marker), and prohibitin (mitochondrial marker). (D) Macrophages from WT or Stat1–/– mice were incubated under control or cholesterol-loading conditions for 12 or 16 hours and then stained with MitoTracker Red. (E) Macrophages were incubated under control or cholesterol-loading conditions for 16 hours in the absence or presence of 10 μM of the JNK inhibitor SP600125 after 1 hour pretreatment, and then stained with MitoTracker Red. Scale bars: 20 μm (A); 10 μm (D and E). Differing symbols indicate P < 0.01; identical symbols indicate differences that are not significant.