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Depletion of protein kinase STK25 ameliorates renal lipotoxicity and protects against diabetic kidney disease
Emmelie Cansby, Mara Caputo, Lei Gao, Nagaraj M. Kulkarni, Annika Nerstedt, Marcus Ståhlman, Jan Borén, Rando Porosk, Ursel Soomets, Matteo Pedrelli, Paolo Parini, Hanns-Ulrich Marschall, Jenny Nyström, Brian W. Howell, Margit Mahlapuu
Emmelie Cansby, Mara Caputo, Lei Gao, Nagaraj M. Kulkarni, Annika Nerstedt, Marcus Ståhlman, Jan Borén, Rando Porosk, Ursel Soomets, Matteo Pedrelli, Paolo Parini, Hanns-Ulrich Marschall, Jenny Nyström, Brian W. Howell, Margit Mahlapuu
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Research Article Metabolism Nephrology

Depletion of protein kinase STK25 ameliorates renal lipotoxicity and protects against diabetic kidney disease

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Abstract

Diabetic kidney disease (DKD) is the most common cause of severe renal disease worldwide and the single strongest predictor of mortality in diabetes patients. Kidney steatosis has emerged as a critical trigger in the pathogenesis of DKD; however, the molecular mechanism of renal lipotoxicity remains largely unknown. Our recent studies in genetic mouse models, human cell lines, and well-characterized patient cohorts have identified serine/threonine protein kinase 25 (STK25) as a critical regulator of ectopic lipid storage in several metabolic organs prone to diabetic damage. Here, we demonstrate that overexpression of STK25 aggravates renal lipid accumulation and exacerbates structural and functional kidney injury in a mouse model of DKD. Reciprocally, inhibiting STK25 signaling in mice ameliorates diet-induced renal steatosis and alleviates the development of DKD-associated pathologies. Furthermore, we find that STK25 silencing in human kidney cells protects against lipid deposition, as well as oxidative and endoplasmic reticulum stress. Together, our results suggest that STK25 regulates a critical node governing susceptibility to renal lipotoxicity and that STK25 antagonism could mitigate DKD progression.

Authors

Emmelie Cansby, Mara Caputo, Lei Gao, Nagaraj M. Kulkarni, Annika Nerstedt, Marcus Ståhlman, Jan Borén, Rando Porosk, Ursel Soomets, Matteo Pedrelli, Paolo Parini, Hanns-Ulrich Marschall, Jenny Nyström, Brian W. Howell, Margit Mahlapuu

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Figure 8

Silencing of STK25 protects HEK293 cells against oxidative and ER stress, and it activates autophagy.

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Silencing of STK25 protects HEK293 cells against oxidative and ER stress...
HEK293 cells were transfected with STK25 siRNA or NTC siRNA and challenged with oleic acid for 48 hours. (A–F) Representative images of cells processed for immunofluorescence with anti–4-HNE (green; A), anti-KDEL (green; C), anti-PMP70 (red; D), anti-PEX5 (pink; E), or anti-LC3 (green, F) antibodies or stained with DHE (red; B); nuclei stained with DAPI (blue). Quantification of the staining. (G) Cell lysates were analyzed by Western blot using antibodies specific for phospho-JNK (Thr183/Tyr185), JNK, LC3, Beclin-1, and STK25. Protein levels were analyzed by densitometry; representative Western blots are shown with GAPDH used as a loading control. In A–F, the scale bars represent 40 μm. Data are mean ± SEM from 4–8 wells per group. *P < 0.05, **P < 0.01, ***P < 0.001 by a 2-tailed Student’s t test

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