Tomohiro Koga, Christian M. Hedrich, Masayuki Mizui, Nobuya Yoshida, Kotaro Otomo, Linda A. Lieberman, Thomas Rauen, José C. Crispín, George C. Tsokos
Tomohiro Koga, Christian M. Hedrich, Masayuki Mizui, Nobuya Yoshida, Kotaro Otomo, Linda A. Lieberman, Thomas Rauen, José C. Crispín, George C. Tsokos
Abstract
Tissue inflammation in several autoimmune diseases, including SLE and MS, has been linked to an imbalance of IL-17–producing Th (Th17) cells and Tregs; however, the factors that promote Th17-driven autoimmunity are unclear. Here, we present evidence that the calcium/calmodulin-dependent protein kinase IV (CaMK4) is increased and required during Th17 cell differentiation. Isolation of naive T cells from a murine model of lupus revealed increased levels of CaMK4 following stimulation with Th17-inducing cytokines but not following Treg, Th1, or Th2 induction. Furthermore, naive T cells from mice lacking CaMK4 did not produce IL-17. Genetic or pharmacologic inhibition of CaMK4 decreased the frequency of IL-17–producing T cells and ameliorated EAE and lupus-like disease in murine models. Inhibition of CaMK4 reduced Il17 transcription through decreased activation of the cAMP response element modulator α (CREM-α) and reduced activation of the AKT/mTOR pathway, which is known to enhance Th17 differentiation. Importantly, silencing CaMK4 in T cells from patients with SLE and healthy individuals inhibited Th17 differentiation through reduction of IL17A and IL17F mRNA. Collectively, our results suggest that CaMK4 inhibition has potential as a therapeutic strategy for Th17-driven autoimmune diseases.
Authors
Tomohiro Koga, Christian M. Hedrich, Masayuki Mizui, Nobuya Yoshida, Kotaro Otomo, Linda A. Lieberman, Thomas Rauen, José C. Crispín, George C. Tsokos
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