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Small-molecule inhibition of APT1 affects Ras localization and signaling.

Nature chemical biology (2010-04-27)
Frank J Dekker, Oliver Rocks, Nachiket Vartak, Sascha Menninger, Christian Hedberg, Rengarajan Balamurugan, Stefan Wetzel, Steffen Renner, Marc Gerauer, Beate Schölermann, Marion Rusch, John W Kramer, Daniel Rauh, Geoffrey W Coates, Luc Brunsveld, Philippe I H Bastiaens, Herbert Waldmann
RESUMEN

Cycles of depalmitoylation and repalmitoylation critically control the steady-state localization and function of various peripheral membrane proteins, such as Ras proto-oncogene products. Interference with acylation using small molecules is a strategy to modulate cellular localization--and thereby unregulated signaling--caused by palmitoylated Ras proteins. We present the knowledge-based development and characterization of a potent inhibitor of acyl protein thioesterase 1 (APT1), a bona fide depalmitoylating enzyme that is, so far, poorly characterized in cells. The inhibitor, palmostatin B, perturbs the cellular acylation cycle at the level of depalmitoylation and thereby causes a loss of the precise steady-state localization of palmitoylated Ras. As a consequence, palmostatin B induces partial phenotypic reversion in oncogenic HRasG12V-transformed fibroblasts. We identify APT1 as one of the thioesterases in the acylation cycle and show that this protein is a cellular target of the inhibitor.

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Sigma-Aldrich
β-Propiolactone, Grade II, ≥90%
Sigma-Aldrich
Palmostatin B, InSolution, ≥95%, 50 mM in DMSO, APT1 inhibitor