Abstract
Varieties of transforming growth factor-β (TGF-β) antagonists have been developed to intervene with excessive TGF-β signalling activity in cancer. Activin receptor-like kinase5 (ALK5) inhibitors antagonize TGF-β signalling by blocking TGF-β receptor-activated Smad (R-Smad) phosphorylation. Here we report the novel mechanisms how ALK5 inhibitors exert a therapeutic effect on a mouse B16 melanoma model. Oral treatment with a novel ALK5 inhibitor, EW-7197 (2.5 mg/kg daily) or a representative ALK5 inhibitor, LY-2157299 (75 mg/kg bid) suppressed the progression of melanoma with enhanced cytotoxic T-lymphocyte (CTL) responses. Notably, ALK5 inhibitors not only blocked R-Smad phosphorylation, but also induced ubiquitin-mediated degradation of the common Smad, Smad4 mainly in CD8+ T cells in melanoma-bearing mice. Accordingly, T-cell-specific deletion of Smad4 was sufficient to suppress the progression of melanoma. We further identified eomesodermin (Eomes), the T-box transcription factor regulating CTL functions, as a specific target repressed by TGF-β via Smad4 and Smad3 in CD8+ T cells. Thus, ALK5 inhibition enhances anti-melanoma CTL responses through ubiquitin-mediated degradation of Smad4 in addition to the direct inhibitory effect on R-Smad phosphorylation.
Highlights
TGF‐b is the most potent immunosuppressive cytokine, which is abundantly produced and activated in the tumour microenvironment (Bierie and Moses, 2006; Flavell et al, 2010)
Selective inhibition of Activin receptor‐ like kinase5 (ALK5) suppresses the progression of melanoma with enhanced cytotoxic T lymphocytes (CTLs) activity To examine the therapeutic efficacy of EW‐7197 for melanoma in comparison with LY‐2157299 for eventual use in a Phase 2 clinical trial (Akhurst & Hata, 2012; Calvo‐Aller et al, 2008; Hawinkels & ten Dijke, 2011), C57BL/6 mice were orally administered with vehicle or vehicle containing EW‐7197 (2.5 mg/kg daily) or LY‐2157299 (75 mg/kg bid) starting from 4 days after inoculation of green fluorescent protein (GFP)‐expressing B16 cells (4 Â 104) into the left footpads
The % of GFPþ B16 cells and immune cell subsets in draining lymph nodes (dLNs) were determined by flowcytometry
Summary
TGF‐b is the most potent immunosuppressive cytokine, which is abundantly produced and activated in the tumour microenvironment (Bierie and Moses, 2006; Flavell et al, 2010). TGF‐b suppresses anti‐tumour immunity by directly inhibiting the differentiation and functions of various effector cells, such as NK cells, Th1 cells and cytotoxic T lymphocytes (CTLs; Li et al, 2006). To intervene with excessive TGF‐b signalling activity to enhance anti‐tumour immunity, varieties of TGF‐b antagonists have been developed (Akhurst & Hata, 2012; Flavell et al, 2010; Hawinkels & ten Dijke, 2011). TGF‐b type I receptor (TbRI) phosphorylates TGF‐b receptor‐activated Smads (R‐Smads), Smad and Smad, which form heteromeric complexes with the common Smad, Smad, to translocate into the nuclei, where they regulate the target gene transcription (Massague et al, 2005). Activin receptor‐ like kinase (ALK5) inhibitors are the small molecule inhibitors, which block phosphorylation of R‐Smads by occupying the ATP binding site of TbRI domain (Jin et al, 2011). On the basis of a selective, imidazole‐based ALK5 inhibitor, 4‐(4‐(benzo[d][1,3]dioxol‐5‐yl)‐5‐(pyridin‐2‐yl)‐1H‐imidazol‐2‐yl)benzamide, SB‐431542 (Callahan et al, 2002) as a lead compound, we designed and synthesized an orally bioavailable ALK5 inhibitor, N‐((4‐([1,2,4]triazolo[1,5‐a]pyridin‐6‐yl)‐5‐(6‐methylpyridin‐2‐yl)‐1H‐imidazol‐2‐yl)methyl)‐2‐fluoroaniline, EW‐7197 (Kim et al, 2011)
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