CaMK4 compromises podocyte function in autoimmune and nonautoimmune kidney disease
Kayaho Maeda, … , Maria G. Tsokos, George C. Tsokos
Kayaho Maeda, … , Maria G. Tsokos, George C. Tsokos
Published July 9, 2018
Citation Information: J Clin Invest. 2018;128(8):3445-3459. https://doi.org/10.1172/JCI99507.
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Research Article Autoimmunity Nephrology

CaMK4 compromises podocyte function in autoimmune and nonautoimmune kidney disease

Abstract

Podocyte malfunction occurs in autoimmune and nonautoimmune kidney disease. Calcium signaling is essential for podocyte injury, but the role of Ca2+/calmodulin–dependent kinase (CaMK) signaling in podocytes has not been fully explored. We report that podocytes from patients with lupus nephritis and focal segmental glomerulosclerosis and lupus-prone and lipopolysaccharide- or adriamycin-treated mice display increased expression of CaMK IV (CaMK4), but not CaMK2. Mechanistically, CaMK4 modulated podocyte motility by altering the expression of the GTPases Rac1 and RhoA and suppressed the expression of nephrin, synaptopodin, and actin fibers in podocytes. In addition, it phosphorylated the scaffold protein 14-3-3β, which resulted in the release and degradation of synaptopodin. Targeted delivery of a CaMK4 inhibitor to podocytes preserved their ultrastructure, averted immune complex deposition and crescent formation, and suppressed proteinuria in lupus-prone mice and proteinuria in mice exposed to lipopolysaccharide-induced podocyte injury by preserving nephrin/synaptopodin expression. In animals exposed to adriamycin, podocyte-specific delivery of a CaMK4 inhibitor prevented and reversed podocyte injury and renal disease. We conclude that CaMK4 is pivotal in immune and nonimmune podocyte injury and that its targeted cell-specific inhibition preserves podocyte structure and function and should have therapeutic value in lupus nephritis and podocytopathies, including focal segmental glomerulosclerosis.

Authors

Kayaho Maeda, Kotaro Otomo, Nobuya Yoshida, Mones S. Abu-Asab, Kunihiro Ichinose, Tomoya Nishino, Michihito Kono, Andrew Ferretti, Rhea Bhargava, Shoichi Maruyama, Sean Bickerton, Tarek M. Fahmy, Maria G. Tsokos, George C. Tsokos

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Figure 9

Activated CaMK4 disrupts the binding of synaptopodin to 14-3-3β.

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Activated CaMK4 disrupts the binding of synaptopodin to 14-3-3β. Human 1...
Human 14-3-3β-FLAG, synaptopodin-6His, and CaMK4-DsRed plasmids are transfected into HEK293T cells, followed by immunoprecipitation with an anti-FLAG or anti-6His antibodies. (A) Immunoprecipitation with anti-6His antibody and immunoblot analysis of CaMK4 and synaptopodin. CaMK4 does not interact with His-tagged synaptopodin in cotransfected HEK293T cells. Jurkat cell lysate was used as a positive control of CaMK4. Data are representative of 2 independent experiments. (B) Phospho-CaMK4 precipitates with flag-tagged 14-3-3β after exposure to ionomycin from cotransfected HEK293T cells. Data are representative of 2 independent experiments. (C) Immunoprecipitation and immunoblot analysis of synaptopodin and phospho-serine expression. Cotransfected HEK293T cells were stimulated with ionomycin for the indicated times. Cell lysates were immunoprecipitated with anti-FLAG antibody and then analyzed by immunoblotting with anti-synaptopodin and anti–phospho-serine antibodies. Data are representative of 3 independent experiments. (D) Schematic model of the relationship between Ca2+/CaMK4 signaling and actin stability in podocytes.