Intracellular Trapping of the Selective Phosphoglycerate Dehydrogenase (PHGDH) Inhibitor <b>BI-4924</b> Disrupts Serine Biosynthesis

Harald Weinstabl; Matthias Treu; Joerg Rinnenthal; Stephan K. Zahn; Peter Ettmayer; Gerd Bader; Georg Dahmann; Dirk Kessler; Klaus Rumpel; Nikolai Mischerikow; Fabio Savarese; Thomas Gerstberger; Moriz Mayer; Andreas Zoephel; Renate Schnitzer; Wolfgang Sommergruber; Paola Martinelli; Heribert Arnhof; Biljana Peric-Simov; Karin S. Hofbauer; Géraldine Garavel; Yvonne Scherbantin; Sophie Mitzner; Thomas N. Fett; Guido Scholz; Jens Bruchhaus; Michelle Burkard; Roland Kousek; Tuncay Ciftci; Bernadette Sharps; Andreas Schrenk; Christoph Harrer; Daniela Haering; B. Wolkerstorfer; Xuechun Zhang; Xiaobing Lv; Alicia Du; Dongyang Li; Yali Li; Jens Quant; Mark Pearson; Darryl B. McConnell

doi:10.1021/acs.jmedchem.9b00718

Intracellular Trapping of the Selective Phosphoglycerate Dehydrogenase (PHGDH) Inhibitor <b>BI-4924</b> Disrupts Serine Biosynthesis

Harald Weinstabl(Boehringer Ingelheim (Austria)), Matthias Treu(Boehringer Ingelheim (Austria)), Joerg Rinnenthal(Boehringer Ingelheim (Austria)), Stephan K. Zahn(Boehringer Ingelheim (Austria)), Peter Ettmayer(Boehringer Ingelheim (Austria)), Gerd Bader(Boehringer Ingelheim (Austria)), Georg Dahmann(Boehringer Ingelheim (Germany)), Dirk Kessler(Boehringer Ingelheim (Austria)), Klaus Rumpel(Boehringer Ingelheim (Austria)), Nikolai Mischerikow(Boehringer Ingelheim (Austria)), Fabio Savarese(Boehringer Ingelheim (Austria)), Thomas Gerstberger(Boehringer Ingelheim (Austria)), Moriz Mayer(Boehringer Ingelheim (Austria)), Andreas Zoephel(Boehringer Ingelheim (Austria)), Renate Schnitzer(Boehringer Ingelheim (Austria)), Wolfgang Sommergruber(Boehringer Ingelheim (Austria)), Paola Martinelli(Boehringer Ingelheim (Austria)), Heribert Arnhof(Boehringer Ingelheim (Austria)), Biljana Peric-Simov(Boehringer Ingelheim (Austria)), Karin S. Hofbauer(Boehringer Ingelheim (Austria)), Géraldine Garavel(Boehringer Ingelheim (Austria)), Yvonne Scherbantin(Boehringer Ingelheim (Austria)), Sophie Mitzner(Boehringer Ingelheim (Austria)), Thomas N. Fett(Boehringer Ingelheim (Austria)), Guido Scholz(Boehringer Ingelheim (Austria)), Jens Bruchhaus(Boehringer Ingelheim (Austria)), Michelle Burkard(Boehringer Ingelheim (Austria)), Roland Kousek(Boehringer Ingelheim (Austria)), Tuncay Ciftci(Boehringer Ingelheim (Germany)), Bernadette Sharps(Boehringer Ingelheim (Austria)), Andreas Schrenk(Boehringer Ingelheim (Austria)), Christoph Harrer(Boehringer Ingelheim (Austria)), Daniela Haering(Boehringer Ingelheim (Austria)), B. Wolkerstorfer(Boehringer Ingelheim (Austria)), Xuechun Zhang(Shanghai Zhangjiang Laboratory), Xiaobing Lv(Shanghai Zhangjiang Laboratory), Alicia Du(Shanghai Zhangjiang Laboratory), Dongyang Li(Shanghai Zhangjiang Laboratory), Yali Li(Shanghai Zhangjiang Laboratory), Jens Quant(Boehringer Ingelheim (Austria)), Mark Pearson(Boehringer Ingelheim (Austria)), Darryl B. McConnell(Boehringer Ingelheim (Austria))

Journal of Medicinal Chemistry

July 31, 2019

10.1021/acs.jmedchem.9b00718

Cited by 85Open Access

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Abstract

Phosphoglycerate dehydrogenase (PHGDH) is known to be the rate-limiting enzyme in the serine synthesis pathway in humans. It converts glycolysis-derived 3-phosphoglycerate to 3-phosphopyruvate in a co-factor-dependent oxidation reaction. Herein, we report the discovery of BI-4916, a prodrug of the co-factor nicotinamide adenine dinucleotide (NADH/NAD+)-competitive PHGDH inhibitor BI-4924, which has shown high selectivity against the majority of other dehydrogenase targets. Starting with a fragment-based screening, a subsequent hit optimization using structure-based drug design was conducted to deliver a single-digit nanomolar lead series and to improve potency by 6 orders of magnitude. To this end, an intracellular ester cleavage mechanism of the ester prodrug was utilized to achieve intracellular enrichment of the actual carboxylic acid based drug and thus overcome high cytosolic levels of the competitive cofactors NADH/NAD+.

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