Stefan Tanner scite author profile

BackgroundCP-31398 is a small molecule that has been reported to stabilize the DNA-binding core domain of the human tumor suppressor protein p53 in vitro. The compound was also reported to function as a potential anti-cancer drug by rescuing the DNA-binding activity and, consequently, the transcription activation function of mutant p53 protein in mammalian tissue culture cells and in mice.ResultsWe performed a series of gene expression experiments to test the activity of CP-31398 in yeast and in human cell cultures. With these cell-based assays, we were unable to detect any specific stimulation of mutant p53 activity by this compound. Concentrations of CP-31398 that were reported to be active in the published work were highly toxic to the human H1299 lung carcinoma and Saos-2 cell lines in our experiments.ConclusionIn our experiments, the small molecule CP-31398 was unable to reactivate mutant p53 protein. The results of our in vivo experiments are in agreement with the recently published biochemical analysis of CP-31398 showing that this molecule does not bind p53 as previously claimed, but intercalates into DNA.

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Human β-secretase activity in yeast detected by a novel cellular growth selection system

Lüthi¹,

Schaerer-Brodbeck²,

Tanner³

et al. 2003

Biochimica et Biophysica Acta (BBA) - General Subjects

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Quenching Accumulation of Toxic Galactose-1-Phosphate as a System to Select Disruption of Protein-Protein Interactions in Vivo

Gunde¹,

Tanner²,

Maur³

et al. 2004

BioTechniques

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The reverse two-hybrid system has been developed to readily identify molecules or mutations that can disrupt protein-protein interactions in vivo. This system is generally based on the interaction-dependent activation of a reporter gene, whose product inhibits the growth of the engineered yeast cell. Thus, disruption of the interaction between the hybrid proteins can be positively selected because, by reducing the expression of the negative marker gene, it allows cell growth. Although several counter-selectable marker genes are currently available, their application in the reverse two-hybrid system is generally confronted with technical and practical problems such as low selectivity and relatively complex experimental procedures. Thus, the characterization of more reliable and simple counter-selection assays for the reverse two-hybrid system continues to be of interest. We have developed a novel counter-selection assay based on the toxicity of intracellular galactose-1-phosphate, which accumulates upon expression of a galactokinase-encoding GAL1 reporter gene in the absence of transferase activity. Decreased GAL1 gene expression upon dissociation of interacting proteins causes reduction of intracellular galactose-1-phosphate concentrations, thus allowing cell growth under selective conditions.

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Metabolism of diethylstilbestrol: Identification of a catechol derived from dienestrol

Weidenfeld

Carter

Reinhold

et al. 1978

Biol. Mass Spectrom.

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The enzymatic oxidation of E-3,4-bis-(p-hydroxyphenyl)-hex-3-ene (diethylstilbestrol) by either mushroom tyrosinase or rat liver microsomes in the presence of NADPH and air yields a catechol. Upon further oxidation of both compounds with periodate and condensation of the resulting o-quinones with o-phenylenediamine, phenazines are produced. The phenazines derived from the products of both the plant and animal enzyme systems are identical to the product obtained by oxidation of diethylstilbestrol with potassium nitrosodisulfonate and condensation of the o-quinone produced with o-phenylenediamine. High and low resolution mass spectra of the phenazine are consistent with its derivation from a catechol having two fewer hydrogens than diethylstilbestrol.

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Stefan Tanner

A Novel SR-Related Protein Specifically Interacts with the Carboxy-Terminal Domain (CTD) of RNA Polymerase through a Conserved Interaction Domain

CP-31398, a putative p53-stabilizing molecule tested in mammalian cells and in yeast for its effects on p53 transcriptional activity

Human β-secretase activity in yeast detected by a novel cellular growth selection system

Quenching Accumulation of Toxic Galactose-1-Phosphate as a System to Select Disruption of Protein-Protein Interactions in Vivo

Metabolism of diethylstilbestrol: Identification of a catechol derived from dienestrol

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