Targeting cancer with small molecule pan-KRAS degraders

Johannes Popow; William Farnaby; Andreas Gollner; Christiane Kofink; Gerhard W. Fischer; Melanie Wurm; David Zollman; Andre Wijaya; Nikolai Mischerikow; Carina Hasenoehrl; Polina Prokofeva; Heribert Arnhof; Silvia Arce-Solano; Sammy Bell; Georg Boeck; Emelyne Diers; Aileen B. Frost; Jake Goodwin‐Tindall; Jale Karolyi‐Oezguer; Shakil Khan; Theresa Klawatsch; Manfred Koegl; Roland Kousek; Barbara Kratochvil; Katrin Kropatsch; Arnel A. Lauber; Ross McLennan; Sabine Olt; Daniel Peter; Oliver Petermann; Vanessa Roessler; Peggy Stolt-Bergner; Patrick Strack; Eva Strauss; Nicole Trainor; Vesna Vetma; Claire Whitworth; Siying Zhong; Jens Quant; Harald Weinstabl; Bernhard Küster; Peter Ettmayer; Alessio Ciulli

doi:10.1101/2023.10.24.563163

Targeting cancer with small molecule pan-KRAS degraders

Johannes Popow(Boehringer Ingelheim (Austria)), William Farnaby(University of Dundee), Andreas Gollner(Boehringer Ingelheim (Austria)), Christiane Kofink(Boehringer Ingelheim (Austria)), Gerhard W. Fischer(Boehringer Ingelheim (Austria)), Melanie Wurm(Boehringer Ingelheim (Austria)), David Zollman(University of Dundee), Andre Wijaya(University of Dundee), Nikolai Mischerikow(Boehringer Ingelheim (Austria)), Carina Hasenoehrl(Boehringer Ingelheim (Austria)), Polina Prokofeva(Technical University of Munich), Heribert Arnhof(Boehringer Ingelheim (Austria)), Silvia Arce-Solano(Boehringer Ingelheim (Austria)), Sammy Bell(Boehringer Ingelheim (United States)), Georg Boeck(Boehringer Ingelheim (Austria)), Emelyne Diers(University of Dundee), Aileen B. Frost(University of Dundee), Jake Goodwin‐Tindall(University of Dundee), Jale Karolyi‐Oezguer(Boehringer Ingelheim (Austria)), Shakil Khan(University of Dundee), Theresa Klawatsch(Boehringer Ingelheim (Austria)), Manfred Koegl(Boehringer Ingelheim (Austria)), Roland Kousek(Boehringer Ingelheim (Austria)), Barbara Kratochvil(Boehringer Ingelheim (Austria)), Katrin Kropatsch(Boehringer Ingelheim (Austria)), Arnel A. Lauber(Boehringer Ingelheim (Austria)), Ross McLennan(University of Dundee), Sabine Olt(Boehringer Ingelheim (Austria)), Daniel Peter(Boehringer Ingelheim (Austria)), Oliver Petermann(Boehringer Ingelheim (Austria)), Vanessa Roessler(Boehringer Ingelheim (Austria)), Peggy Stolt-Bergner(Boehringer Ingelheim (Austria)), Patrick Strack(Boehringer Ingelheim (Austria)), Eva Strauss(Boehringer Ingelheim (Austria)), Nicole Trainor(University of Dundee), Vesna Vetma(University of Dundee), Claire Whitworth(University of Dundee), Siying Zhong(University of Dundee), Jens Quant(Boehringer Ingelheim (Austria)), Harald Weinstabl(Boehringer Ingelheim (Austria)), Bernhard Küster(Technical University of Munich), Peter Ettmayer(Boehringer Ingelheim (Austria)), Alessio Ciulli(University of Dundee)

bioRxiv (Cold Spring Harbor Laboratory)

October 26, 2023

10.1101/2023.10.24.563163

Cited by 15Open Access

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Abstract

Despite the high prevalence of cancers driven by KRAS mutations, to date only the G12C mutation has been clinically proven to be druggable via covalent targeting of the mutated cysteine amino acid residue (1). However, in many cancer indications other KRAS mutations, such as G12D and -V, are far more prevalent and small molecule concepts that can address a wider variety of oncogenic KRAS alleles are in high clinical demand (2). Here we show that a single small molecule can be used to simultaneously and potently degrade 13 out of 17 of the most prevalent oncogenic KRAS alleles, including those not yet tractable by inhibitors. Compared with inhibition, degradation of oncogenic KRAS results in more profound and sustained pathway modulation across a broad range of KRAS mutant cell lines. As a result, KRAS degraders inhibit growth of the majority of cancer cell lines driven by KRAS mutations while sparing models without genetic KRAS aberrations. Finally, we demonstrate that pharmacological degradation of oncogenic KRAS leads to tumour regression in vivo. Together, these findings unveil a new path towards addressing KRAS driven cancers with small molecule degraders.

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