The Political Career of a Prototype: Visual Representation in Design Engineering

Intracellular trafficking of the precursor of Spitz (Spi), the major Drosophila EGF receptor (EGFR) ligand, is facilitated by the chaperone Star, a type II transmembrane protein. This study identifies a novel mechanism for modulating the activity of Star, thereby influencing the levels of active Spi ligand produced. We demonstrate that Star can efficiently traffic Spi even when present at sub-stoichiometric levels, and that in Drosophila S 2 R þ cells, Spi is trafficked from the endoplasmic reticulum to the late endosome compartment, also enriched for Rhomboid, an intramembrane protease. Rhomboid, which cleaves the Spi precursor, is now shown to also cleave Star within its transmembrane domain both in cell culture and in flies, expanding the repertoire of known Rhomboid substrates to include both type I and type II transmembrane proteins. Cleavage of Star restricts the amount of Spi that is trafficked, and may explain the exceptional dosage sensitivity of the Star locus in flies.

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Keren, a new ligand of the Drosophila epidermal growth factor receptor, undergoes two modes of cleavage

Reich

2002

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Spitz (Spi) is the most prominent ligand of the Drosophila EGF receptor (DER). It is produced as an inactive membrane precursor which is retained in the endoplasmic reticulum (ER). To allow cleavage, Star transports Spi to the Golgi, where it undergoes cleavage by Rhomboid (Rho). Since some DER phenotypes are not mimicked by any of its known activating ligands, we identified an additional ligand by database searches, and termed it Keren (Krn). Krn is a functional homolog of Spi since it can rescue the spi mutant phenotype in a Rho‐ and Star‐dependent manner. In contrast to Spi, however, Krn also possesses a Rho/Star‐independent ability to undergo low‐level cleavage and activate DER, as evident both in cell culture and in flies. The difference in basal activity correlates with the cellular localization of the two ligands. While Spi is retained in the ER, the retention of Krn is only partial. Examining Spi/Krn chimeric and deletion constructs implicates the Spi cytoplasmic domain in inhibiting its basal activity. Low‐level activity of Krn calls for tightly regulated expression of the Krn precursor.

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The Drosophila STAM gene homolog is in a tight gene cluster, and its expression correlates to that of the adjacent gene ial

Mesilaty-Gross

Reich

Motro

et al. 1999

Gene

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Cloning, Mapping, and Expression of ial, a Novel Drosophila Member of the Ipl1/aurora Mitotic Control Kinase Family

Reich

Yanai²,

Mesilaty-Gross³

et al. 1999

DNA and Cell Biology

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The members of the Ipl1-aurora like kinase (IARK) subfamily are conserved serine/threonine kinases that play a key role in the control of chromosome segregation, centrosome separation, and cytokinesis from yeast to mammals. We report on the isolation of a new Drosophila member of the family, designated Ipl1-aurora-like kinase (ial) Phylogenetic analysis of kinase domains established that ial is more divergent from known mammalian IARKs than is aurora. Mapping based on examination of chromosomal aberrations, together with mapping within contigs identified by the Drosophila Genome Project, placed the gene at 32B on the left arm of the second chromosome. Discrete single-gene mutations in this region, including all known relevant P-element disruptions, were examined and proven not to be mutations in ial. Characterization of spatial and temporal expression of ial and its gene product showed that it manifests itself in patterns which can be consistent with a role in cell cycle control.

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Aderet Reich

Intracellular trafficking by Star regulates cleavage of the Drosophila EGF receptor ligand Spitz

Rhomboid cleaves Star to regulate the levels of secreted Spitz

Keren, a new ligand of the Drosophila epidermal growth factor receptor, undergoes two modes of cleavage

The Drosophila STAM gene homolog is in a tight gene cluster, and its expression correlates to that of the adjacent gene ial

Cloning, Mapping, and Expression of ial, a Novel Drosophila Member of the Ipl1/aurora Mitotic Control Kinase Family

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