Abstract
In the filamentous fungus Aspergillus oryzae, large amounts of amylolytic enzymes are inducibly produced by isomaltose, which is converted from maltose incorporated via the maltose transporter MalP. In contrast, the preferred sugar glucose strongly represses the expression of both amylolytic and malP genes through carbon catabolite repression. Simultaneously, the addition of glucose triggers the endocytic degradation of MalP on the plasma membrane. In budding yeast, the signal-dependent ubiquitin modification of plasma membrane transporters leads to selective endocytosis into the vacuole for degradation. In addition, during glucose-induced MalP degradation, the homologous of E6AP C-terminus-type E3 ubiquitin ligase (HulA) is responsible for the ubiquitin modification of MalP, and the arrestin-like protein CreD is required for HulA targeting. Although CreD-mediated MalP internalization occurs in response to glucose, the mechanism by which CreD regulates HulA-dependent MalP ubiquitination remains unclear. In this study, we demonstrated that three (P/L)PxY motifs present in the CreD protein are essential for functioning as HulA adaptors so that HulA can recognize MalP in response to glucose stimulation, enabling MalP internalization. Furthermore, four lysine residues (three highly conserved among Aspergillus species and yeast and one conserved among Aspergillus species) of CreD were found to be necessary for its ubiquitination, resulting in efficient glucose-induced MalP endocytosis. The results of this study pave the way for elucidating the regulatory mechanism of MalP endocytic degradation through ubiquitination by the HulA–CreD complex at the molecular level.
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