Smad‐3 as a mediator of the fibrotic response

Abstract

Introduction Smad‐3, a key cytoplasmic mediator of transforming growth factor‐β (TGF‐β) signalling, mediates many of its inflammatory and fibrotic effects in vivo (Roberts et al. 2001). Smad‐3 null mice are protected against cutaneous injury induced by ionizing irradiation (Flanders et al. 2002). Here, we report on our continuing studies on radioprotection as well as protection against tubulointerstitial fibrosis following unilateral ureteral obstruction (UUO) in Smad‐3 null mice.Methods For radioprotection studies, the flank skin of Smad‐3+/+ wild‐type (WT) and Smad‐3–/– knockout (KO) mice was exposed to 30 Gy of localized γ‐irradiation and analysed for histology and gene expression at various times post irradiation. In the UUO model, the right proximal ureter of WT and KO mice was ligated, and 1–2 weeks later kidneys were analysed for inflammation, fibrosis and gene expression.Results Six weeks after exposure to irradiation, skin from KO mice shows less epidermal acanthosis and influx of mast cells, macrophages and neutrophils than skin of WT mice. Paradoxically, at 6–8 h post irradiation, KO skin shows a significantly greater number of neutrophils. Irradiated KO skin also exhibits less immunoreactive TGF‐β, fewer myofibroblasts and less scarring than does WT. Smad‐3 null dermal fibroblasts do not respond to the chemotactic effects of TGF‐β and show less induction of fibrogenic cytokines when treated with irradiation plus TGF‐β compared to WT cells. Following UUO, normal kidney architecture is preserved in KO mice, while kidneys from WT mice are enlarged with an influx of mononuclear cells and increased expression of collagen and TGF‐β1. Additionally, renal tubules in obstructed kidneys of KO mice remain positive for E‐cadherin without expression of α‐smooth muscle actin, while the opposite expression pattern is seen in obstructed kidneys of WT mice. TGF‐β treatment of primary cultures of WT renal tubular epithelial cells results in a phenotypic change from a cobblestone pattern to a spindle‐shaped fibroblastic appearance, while KO cells treated with TGF‐β maintain their original appearance.Conclusion Smad‐3 plays an important role in mediating pathogenic inflammation and fibrosis in several model systems and is also essential for TGF‐β1‐induced epithelial–mesenchymal transition in renal tubular epithelial cells. Inhibitors of the Smad‐3 pathway may have clinical applications in the treatment of a number of fibrotic conditions.