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Abstract
ABSTRACTTissue morphogenesis is accompanied by changes of adherens junctions (AJ). During Drosophila eye development, AJ reorganization includes the formation of isolated N-Cadherin AJ between photoreceptors R3/R4. Little is known about how these N-Cadherin AJ are established and maintained. This study focuses on the kinases Mbt/PAK4 and SRC, both known to alter E-Cadherin AJ across phyla. Drosophila p21-activated kinase Mbt and the non-receptor tyrosine kinases Src64 and Src42 regulate proper N-Cadherin AJ. N-Cadherin AJ elongation depends on SRC kinase activity. Cell culture experiments demonstrate binding of both Drosophila SRC isoforms to N-Cadherin and its subsequent tyrosine phosphorylation. In contrast, Mbt stabilizes but does not bind N-Cadherin in vitro. Mbt is required in R3/R4 for zipping the N-Cadherin AJ between these cells, independent of its kinase activity and Cdc42-binding. The mbt phenotype can be reverted by mutations in Src64 and Src42. Because Mbt neither directly binds to SRC proteins nor has a reproducible influence on their kinase activity, the conclusion is that Mbt and SRC signaling converge on N-Cadherin. N-Cadherin AJ formation during eye development requires a proper balance between the promoting effects of Mbt and the inhibiting influences of SRC kinases.
Highlights
Tissue morphogenesis in animals is accompanied by changes in composition of the zonula adherens (ZA) allowing dynamic intercellular interactions
This paper addresses the question of whether the kinases Mushroom bodies tiny (Mbt)/PAK4 and SRC influence the N-Cad Adherens junctions (AJ) between photoreceptor R3 and R4
Differential localization of AJ components in the eye imaginal disc Based on a previous report demonstrating the presence of N-Cad AJ at the cell boundary between photoreceptor R3 and R4 (Mirkovic and Mlodzik, 2006), we analyzed the expression and localization pattern of N-Cad during ommatidial assembly in late third-instar larvae
Summary
Tissue morphogenesis in animals is accompanied by changes in composition of the zonula adherens (ZA) allowing dynamic intercellular interactions. In larval mbtP1 eye discs, accumulation of E-Cad at the R2 and R5 AJ was impaired (compare Fig. S1A,B), a phenotype that could be reverted by expression of P[gen-mbt] (Fig. S1C).
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