Dnmbp interacts with Daam1 to facilitate assembly of cadherin-mediated junctions in epithelializing nephric tubules
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The mature kidney contains approximately one million nephrons, and defects arising during nephron development can result in lifelong renal impairment, often culminating in kidney failure and transplantation. Nephric tubule formation requires coordinated epithelial processes, including polarity, adhesion, signaling, and vesicle transport; however, how these processes are integrated during kidney morphogenesis remains unclear. Dynamin binding protein (Dnmbp) is a multi-domain scaffolding protein expressed in human kidneys that is involved in several cellular processes. Using the Xenopus embryonic kidney, we previously demonstrated that Dnmbp is essential for nephrogenesis, yet the mechanisms by which it influences nephron development remain undefined. Here, we identify Dnmbp as a novel interacting partner of the Wnt/planar cell polarity effector Daam1. The interaction between Daam1 and Dnmbp was independently identified in two yeast two-hybrid screens, biochemically verified, and supported by structural modeling predictions of a Daam1-Dnmbp complex. In developing Xenopus laevis kidneys, Dnmbp localized to punctate structures associated with E-cadherin-rich cell-cell contacts. Dnmbp depletion significantly reduced junctional E-cadherin localization in both epithelializing and mature nephric tubules without affecting total E-cadherin levels, indicating a role in E-cadherin recruitment or stabilization at adherens junctions. Furthermore, expression of human DNMBP rescued the junctional defects, confirming the specificity of the loss-of-function phenotype. Together, these findings identify Dnmbp as an essential regulator of kidney development and support a model in which Dnmbp provides a mechanistic link between Wnt/PCP signaling, Cdc42 activation, and adherens junction formation during nephrogenesis.