by Keyword: Natural sciences
Prischich, D, Camarero, N, del Dedo, JE, Cambra-Pellejà, M, Prat, J, Nevola, L, Martín-Quirós, A, Rebollo, E, Pastor, L, Giralt, E, Geli, MI, Gorostiza, P, (2023). Light-dependent inhibition of clathrin-mediated endocytosis in yeast unveils conserved functions of the AP2 complex Iscience 26, 107899 
Clathrin-mediated endocytosis (CME) is an essential cellular process, conserved among eukaryotes. Yeast constitutes a powerful genetic model to dissect the complex endocytic machinery, yet there is a lack of specific pharmacological agents to interfere with CME in these organisms. TL2 is a light-regulated peptide inhibitor targeting the AP2-β-adaptin/β-arrestin interaction and that can photocontrol CME with high spatiotemporal precision in mammalian cells. Here, we study endocytic protein dynamics by live-cell imaging of the fluorescently tagged coat-associated protein Sla1-GFP, demonstrating that TL2 retains its inhibitory activity in S. cerevisiae spheroplasts. This is despite the β-adaptin/β-arrestin interaction not being conserved in yeast. Our data indicate that the AP2 α-adaptin is the functional target of activated TL2. We identified as interacting partners for the α-appendage, the Eps15 and epsin homologues Ede1 and Ent1. This demonstrates that endocytic cargo loading and sensing can be executed by conserved molecular interfaces, regardless of the proteins involved.© 2023 The Author(s).
JTD Keywords: adapters, alpha-appendage, azobenzene, cross-linker, mechanism, peptides, proteins, receptor, trafficking, Actin polymerization, Biochemistry, Biological sciences, Cell biology, Molecular biology, Natural sciences
