Abstract
The Notch signaling pathway is pivotal to cellular differentiation. Activation of this pathway involves proteolysis of the Notch receptor and the release of the biologically active Notch intracellular domain, acting as a transcriptional co-activator of Notch target genes. While the regulation of Notch signaling dynamics at the level of ligand–receptor interaction, endocytosis, and transcriptional regulation has been well studied, little is known about factors influencing Notch cleavage. We identified EP555 as a suppressor of the Notch antagonist Hairless (H). EP555 drives expression of CG32521 encoding membrane-bound proteins, which we accordingly rename membrane-bound Notch regulator (mnr). Within the signal-receiving cell, upregulation of Mnr stimulates Notch receptor activation, whereas a knockdown reduces it, without apparent influence on ligand–receptor interaction. We provide evidence that Mnr plays a role in γ-secretase-mediated intramembrane cleavage of the Notch receptor. As revealed by a fly-eye-based reporter system, γ-secretase activity is stimulated by the overexpression of Mnr, and is inhibited by its knockdown. We conclude that Mnr proteins support Notch signaling activity by fostering the cleavage of the Notch receptor. With Mnr, we identified a membrane-bound factor directly augmenting Notch intra-membrane processing, thereby acting as a positive regulator of Notch signaling activity.
Highlights
Cell–cell communication is a fundamental principle for the specification and differentiation of the diverse cell types that build a multicellular animal
Notch signals are pivotal to normal development, and alterations are associated with various congenital diseases, as well as cancer formation
We provide evidence that Mnr proteins support Notch signaling activity by easing the cleavage of the Notch receptor
Summary
Cell–cell communication is a fundamental principle for the specification and differentiation of the diverse cell types that build a multicellular animal. An extraordinarily complex network of genes, mostly identified in Drosophila melanogaster, affect Notch signaling activity, but many remain to be characterized in detail (reviewed in [3]). It was recognized that the Notch pathway is activated in the abutting cells of the dorsal and ventral compartments within the wing anlagen. At this interface, Notch activity establishes a growth organizer, and eventually the wing margin is formed. Incomplete Notch signaling activity causes gaps in the boundary, and wing notches arise (reviewed in [5])
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