BACKGROUND: The Myc oncoprotein is an important regulator of cellular growth in metazoan organisms. Its levels and activity are tightly controlled in vivo by a variety of mechanisms. In normal cells, Myc protein is rapidly degraded, but the mechanism of its degradation is not well understood. RESULTS: Here we present genetic and biochemical evidence that Archipelago (Ago), the F box component of an SCF-ubiquitin ligase and the Drosophila ortholog of a human tumor suppressor, negatively regulates the levels and activity of Drosophila Myc (dMyc) protein in vivo. Mutations in archipelago (ago) result in strongly elevated dMyc protein levels and increased tissue growth. Genetic interactions indicate that ago antagonizes dMyc function during development. Archipelago binds dMyc and regulates its stability, and the ability of Ago to bind dMyc in vitro correlates with its ability to inhibit dMyc accumulation in vivo. CONCLUSIONS: Our data indicate that archipelago is an important inhibitor of dMyc in developing tissues. Because archipelago can also regulate Cyclin E levels and Notch activity, these results indicate how a single F box protein can be responsible for the degradation of key components of multiple pathways that control growth and cell cycle progression. Copyright 2004 Elsevier Ltd.
BACKGROUND: The Myc oncoprotein is an important regulator of cellular growth in metazoan organisms. Its levels and activity are tightly controlled in vivo by a variety of mechanisms. In normal cells, Myc protein is rapidly degraded, but the mechanism of its degradation is not well understood. RESULTS: Here we present genetic and biochemical evidence that Archipelago (Ago), the F box component of an SCF-ubiquitin ligase and the Drosophila ortholog of a humantumor suppressor, negatively regulates the levels and activity of DrosophilaMyc (dMyc) protein in vivo. Mutations in archipelago (ago) result in strongly elevated dMyc protein levels and increased tissue growth. Genetic interactions indicate that ago antagonizes dMyc function during development. Archipelago binds dMyc and regulates its stability, and the ability of Ago to bind dMyc in vitro correlates with its ability to inhibit dMyc accumulation in vivo. CONCLUSIONS: Our data indicate that archipelago is an important inhibitor of dMyc in developing tissues. Because archipelago can also regulate Cyclin E levels and Notch activity, these results indicate how a single F box protein can be responsible for the degradation of key components of multiple pathways that control growth and cell cycle progression. Copyright 2004 Elsevier Ltd.
Authors: Xiaojing Tang; Stephen Orlicky; Tanja Mittag; Veronika Csizmok; Tony Pawson; Julie D Forman-Kay; Frank Sicheri; Mike Tyers Journal: Proc Natl Acad Sci U S A Date: 2012-02-10 Impact factor: 11.205
Authors: Timothy D Donaldson; Maher A Noureddine; Patrick J Reynolds; William Bradford; Robert J Duronio Journal: Mol Biol Cell Date: 2004-08-25 Impact factor: 4.138