The laminin-binding integrins regulate nuclear factor kappa-β-dependent epithelial cell polarity and inflammation

The main laminin (LM)-binding integrins α3β1, α6β1 and α6β4 are co-expressed in the developing kidney collecting duct (CD) system. We previously showed that deleting the integrin α3 or α6 subunit in the ureteric bud (UB), which gives rise to the kidney collecting system, caused either a mild or no branching morphogenesis phenotype, respectively. To determine whether these two integrin subunits co-operate in kidney CD development, we deleted α3 and α6 in the developing UB. The collecting system of the double knockout phenocopied the α3 integrin conditional knockout. However, with age the mice developed severe inflammation and fibrosis around the CDs resulting in kidney failure. Integrin α3α6 null CD epithelial cells showed increased secretion of pro-inflammatory cytokines and displayed mesenchymal characterisitcs causing loss of barrier function. These features resulted from increased NF-κB activity, which regulated the Snail/Slug transcription factors and their downstream targets. These data suggest that LM-binding integrins play a key role in the maintenance of kidney tubule epithelial cell polarity and decrease pro-inflammatory cytokine secretion by regulating NF-κB-dependent signaling.

The Case of the Scribble Polarity Module in Asymmetric Neuroblast Division in Development and Tumorigenesis

The Scribble polarity module is composed by Scribble (Scrib), Discs large 1 (Dlg1) and Lethal (2) giant larvae (L(2)gl), a group of highly conserved neoplastic tumor suppressor genes (TSGs) from flies to humans. Even though the Scribble module has been profusely studied in epithelial cell polarity, the number of tissues and processes in which it is involved is increasingly growing. Here we discuss the role of the Scribble module in the asymmetric division of Drosophila neuroblasts (NBs), as well as the underlying mechanisms by which those TSGs act in this process. Finally, we also describe what we know about the consequences of mutating these genes in impairing the process of asymmetric NB division and promoting tumor-like overgrowth.

Apical transport of Crumbs maintains epithelial cell polarity

Crumbs (Crb in Drosophila; CRB1-3 in mammals) is a transmembrane determinant of epithelial cell polarity and a regulator of Hippo signalling. Crb is normally localized to apical cell-cell contacts, just above adherens junctions, but how apical trafficking of Crb is regulated in epithelial cells remains unclear. We use the Drosophila follicular epithelium to demonstrate that polarized trafficking of Crb is mediated by transport along microtubules by the motor protein Dynein and along actin filaments by the motor protein Myosin-V (MyoV). Blocking transport of Crb-containing vesicles by Dynein or MyoV leads to accumulation of Crb within Rab11 endosomes, rather than apical delivery. The final steps of Crb delivery and stabilisation at the plasma membrane requires the exocyst complex and three apical FERM domain proteins – Merlin, Moesin and Expanded – whose simultaneous loss disrupts apical localization of Crb. Accordingly, a knock-in deletion of the Crb FERM-binding motif (FBM) also impairs apical localization. Finally, overexpression of Crb challenges this system, creating a sensitized background to identify components involved in cytoskeletal polarization, apical membrane trafficking and stabilisation of Crb at the apical domain.