Discoidin domain receptor 1 (DDR1) promotes cell differentiation through the increase of E-cadherin-mediated cell-cell contact. Life cell imaging with E-cadherin conjugated with Eos fluorescence protein showed that DDR1 stabilizes membrane-bound E-cadherin and the inactivation of Cdc42 mediates DDR1-regulated cell adhesion and differentiation.
Discoidin domain receptor 1 (DDR1) promotes E-cadherin–mediated adhesion. The underlying mechanism and its significance, however, have not been elucidated. Here we show that DDR1 overexpression augmented, whereas dominant negative mutant (DN-DDR1) or knockdown of DDR1 inhibited E-cadherin localized in cell-cell junctions in epithelial cells. DDR1 changed the localization and abundance of E-cadherin, as well as epithelial plasticity, as manifested by enhancement of microvilli formation and alteration of cytoskeletal organization. DDR1 also reduced protein abundance of mesenchymal markers, whereas DN-DDR1 and sh-DDR1 showed opposite effects. These results suggest that expression of DDR1 increases epithelial plasticity. Expression of DDR1 augmented E-cadherin protein levels by decreasing its degradation rate. Photobleaching and photoconversion of E-cadherin conjugated with Eos fluorescence protein demonstrated that DDR1 increased the stability of E-cadherin on the cell membrane, whereas sh-DDR1 decreased it. Pull-down assay and expression of constitutively active or dominant-negative Cdc42 showed that DDR1 stabilized E-cadherin through inactivation of Cdc42. Altogether, our results show that DDR1 promotes cell-cell adhesion and differentiation through stabilization of E-cadherin, which is mediated by Cdc42 inactivation.