TYRO3 agonist as therapy for glomerular disease
Fang Zhong, Hong Cai, Jia Fu, Zeguo Sun, Zhengzhe Li, David Bauman, Lois Wang, Bhaskar Das, Kyung Lee, John Cijiang He
Fang Zhong, Hong Cai, Jia Fu, Zeguo Sun, Zhengzhe Li, David Bauman, Lois Wang, Bhaskar Das, Kyung Lee, John Cijiang He
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Research Article Nephrology

TYRO3 agonist as therapy for glomerular disease

Abstract

Podocyte injury and loss are key drivers of primary and secondary glomerular diseases, such as focal segmental glomerulosclerosis (FSGS) and diabetic kidney disease (DKD). We previously demonstrated the renoprotective role of protein S (PS) and its cognate tyrosine-protein kinase receptor, TYRO3, in models of FSGS and DKD and that their signaling exerts antiapoptotic and antiinflammatory effects to confer protection against podocyte loss. Among the 3 TAM receptors (TYRO3, AXL, and MER), only TYRO3 expression is largely restricted to podocytes, and glomerular TYRO3 mRNA expression negatively correlates with human glomerular disease progression. Therefore, we posited that the agonistic PS/TYRO3 signaling could serve as a potential therapeutic approach to attenuate glomerular disease progression. As PS function is not limited to TYRO3-mediated signal transduction but includes its anticoagulant activity, we focused on the development of TYRO3 agonists as an optimal therapeutic approach to glomerular disease. Among the small-molecule TYRO3 agonistic compounds screened, compound 10 (C-10) showed a selective activation of TYRO3 without any effects on AXL or MER. We also confirmed that C-10 directly binds to TYRO3, but not the other receptors. In vivo, C-10 attenuated proteinuria, glomerular injury, and podocyte loss in mouse models of Adriamycin-induced nephropathy and a db/db model of type 2 diabetes. Moreover, these renoprotective effects of C-10 were lost in Tyro3-knockout mice, indicating that C-10 is a selective agonist of TYRO3 activity that mitigates podocyte injury and glomerular disease. Therefore, C-10, a TYRO3 agonist, could be potentially developed as a new therapy for glomerular disease.

Authors

Fang Zhong, Hong Cai, Jia Fu, Zeguo Sun, Zhengzhe Li, David Bauman, Lois Wang, Bhaskar Das, Kyung Lee, John Cijiang He

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Figure 2

C-10 is a selective agonist of TYRO3.

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C-10 is a selective agonist of TYRO3. (A) Cultured human podocytes were ...
(A) Cultured human podocytes were stimulated with C-10 at different doses for 30 minutes. Cell lysates were probed with an antibody recognizing the phosphorylated form of all 3 TAM receptors. Phosphorylated MER, AXL, and TYRO3 receptors are differentiated by their corresponding molecular weight. (B) Immortalized podocytes were transduced with either control vector or lentiviral vectors expressing individual FLAG-tagged TAM receptors (AXL-FLAG, TYRO3-FLAG, or MER-FLAG). Lysates from transduced cells were probed for FLAG-tagged protein expression. (C) Immortalized podocytes from B were treated with 100 nM C-10 for 30 minutes, and lysates were probed for phosphorylated or total AKT (p-AKT or t-AKT) and FLAG proteins. GAPDH was used as a loading control. Representative blots of 3 independent experiments are shown. (D) Drug affinity responsive target stability (DARTS) assay was performed to test the direct binding of C-10 to TYRO3. Podocyte lysates were preincubated with various concentrations of C-10 as indicated at 25°C for 1 hour prior to digestion with Pronase (0 or 1:1000 dilution) for 20 minutes. Lysates were then probed for TYRO3 expression, with GAPDH as a loading control.