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Molecular mechanism and functional role of brefeldin A-mediated ADP-ribosylation of CtBP1/BARS. (Articolo in rivista)

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Molecular mechanism and functional role of brefeldin A-mediated ADP-ribosylation of CtBP1/BARS. (Articolo in rivista) (literal)

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Colanzi A, Grimaldi G, Catara G, Valente C, Cericola C, Liberali P, Ronci M, Lalioti VS, Bruno A, Beccari AR, Urbani A, De Flora A, Nardini M, Bolognesi M, Luini A, Corda D. (2013)
Molecular mechanism and functional role of brefeldin A-mediated ADP-ribosylation of CtBP1/BARS.
in Proceedings of the National Academy of Sciences of the United States of America
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Colanzi A, Grimaldi G, Catara G, Valente C, Cericola C, Liberali P, Ronci M, Lalioti VS, Bruno A, Beccari AR, Urbani A, De Flora A, Nardini M, Bolognesi M, Luini A, Corda D. (literal)

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Institute of Protein Biochemistry, National Research Council, 80131 Naples, Italy. a.colanzi@ibp.cnr.it (literal)

Titolo

Molecular mechanism and functional role of brefeldin A-mediated ADP-ribosylation of CtBP1/BARS. (literal)

Abstract

ADP-ribosylation is a posttranslational modification that modulates the functions of many target proteins. We previously showed that the fungal toxin brefeldin A (BFA) induces the ADP-ribosylation of C-terminal-binding protein-1 short-form/BFA-ADP-ribosylation substrate (CtBP1-S/BARS), a bifunctional protein with roles in the nucleus as a transcription factor and in the cytosol as a regulator of membrane fission during intracellular trafficking and mitotic partitioning of the Golgi complex. Here, we report that ADP-ribosylation of CtBP1-S/BARS by BFA occurs via a nonconventional mechanism that comprises two steps: (i) synthesis of a BFA-ADP-ribose conjugate by the ADP-ribosyl cyclase CD38 and (ii) covalent binding of the BFA-ADP-ribose conjugate into the CtBP1-S/BARS NAD(+)-binding pocket. This results in the locking of CtBP1-S/BARS in a dimeric conformation, which prevents its binding to interactors known to be involved in membrane fission and, hence, in the inhibition of the fission machinery involved in mitotic Golgi partitioning. As this inhibition may lead to arrest of the cell cycle in G2, these findings provide a strategy for the design of pharmacological blockers of cell cycle in tumor cells that express high levels of CD38. (literal)

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