Abstract
The Hippo pathway, identified in Drosophila and conserved in vertebrates, regulates tissue growth by promoting cell cycle exit and apoptosis. In addition to their well-characterised overproliferation phenotype, adult Drosophila epithelial cells mutant for the kinases Hippo and Warts have hypertrophic apical domains. Here we examine the molecular basis of this apical hypertrophy and its impact on cell proliferation. In the wing imaginal disc epithelium, we observe increased staining for members of the apical polarity complexes aPKC and Crumbs as well as adherens junction components when Hippo activity is compromised, while basolateral markers are not affected. This increase in apical proteins is correlated with a hypertrophy of the apical domain and adherens junctions. The cell surface localisation of the Notch receptor is also increased in mutant clones, opening the possibility that aberrant receptor signalling may participate in overgrowth of hpo-deficient tissue. Interestingly, however, although the polarity determinant Crumbs is required for the accumulation of apical proteins, this does not appear to significantly contribute to the overproliferation defect elicited by loss of Hippo signalling. Therefore, Hippo signalling controls growth and apical domain size by distinct mechanisms.
Highlights
In an epithelium, the optimisation of contact between neighbouring cells arises through the polarised architecture of each cell, which have several membrane domains separated by distinct types of cellular junctions (Tepass et al, 2001)
The Scribble (Scrib) polarity complex, which consists of Scrib and Disc large (Dlg), is localised to the septate junction (SJ), whereas the Lethal (2) giant larvae (Lgl) protein is present on all the lateral membranes (Tepass et al, 2001)
The rate of apoptosis is the same in wts clones and crb/wts double clones, as assayed by anti-active caspase-3 staining. These results suggest that the apical hypertrophy is not necessary for the overgrowth phenotype elicited by disruption of Hpo signalling
Summary
The optimisation of contact between neighbouring cells arises through the polarised architecture of each cell, which have several membrane domains separated by distinct types of cellular junctions (Tepass et al, 2001). The free apical domain is on the cell surface that is facing the external milieu It is composed of a brush of microvilli whose formation depends on the apical localisation of the cadherin Cad99C (D’Alterio et al, 2005; Schlichting et al, 2006). Just below this free apical domain, the SAR is characterised by the presence of two apical polarity complexes (Tepass et al, 2001). The Scribble (Scrib) polarity complex, which consists of Scrib and Disc large (Dlg), is localised to the SJs, whereas the Lethal (2) giant larvae (Lgl) protein is present on all the lateral membranes (Tepass et al, 2001). These polarity determinants are highly conserved in mammals (Knust and Bossinger, 2002; Nelson, 2003)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
