Novel small molecules targeting ciliary transport of Smoothened and oncogenic Hedgehog pathway activation

Bomi Jung; Ana C. Messias; Kenji Schorpp; Arie Geerlof; Günter Schneider; Dieter Saur; Kamyar Hadian; Michael Sattler; Erich E. Wanker; Stefan Hasenöder; Heiko Lickert

doi:10.1038/srep22540

Novel small molecules targeting ciliary transport of Smoothened and oncogenic Hedgehog pathway activation

Bomi Jung, Ana C. Messias, Kenji Schorpp, Arie Geerlof, Günter Schneider, Dieter Saur, Kamyar Hadian, Michael Sattler, Erich E. Wanker, Stefan Hasenöder, Heiko Lickert

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Trafficking of the G protein-coupled receptor (GPCR) Smoothened (Smo) to the primary cilium (PC) is a potential target to inhibit oncogenic Hh pathway activation in a large number of tumors. One drawback is the appearance of Smo mutations that resist drug treatment, which is a common reason for cancer treatment failure. Here, we undertook a high content screen with compounds in preclinical or clinical development and identified ten small molecules that prevent constitutive active mutant SmoM2 transport into PC for subsequent Hh pathway activation. Eight of the ten small molecules act through direct interference with the G protein-coupled receptor associated sorting protein 2 (Gprasp2)-SmoM2 ciliary targeting complex, whereas one antagonist of ionotropic receptors prevents intracellular trafficking of Smo to the PC. Together, these findings identify several compounds with the potential to treat drug-resistant SmoM2-driven cancer forms, but also reveal off-target effects of established drugs in the clinics.

Original language	English
Article number	22540
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep22540
State	Published - 2 Mar 2016

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title = "Novel small molecules targeting ciliary transport of Smoothened and oncogenic Hedgehog pathway activation",

abstract = "Trafficking of the G protein-coupled receptor (GPCR) Smoothened (Smo) to the primary cilium (PC) is a potential target to inhibit oncogenic Hh pathway activation in a large number of tumors. One drawback is the appearance of Smo mutations that resist drug treatment, which is a common reason for cancer treatment failure. Here, we undertook a high content screen with compounds in preclinical or clinical development and identified ten small molecules that prevent constitutive active mutant SmoM2 transport into PC for subsequent Hh pathway activation. Eight of the ten small molecules act through direct interference with the G protein-coupled receptor associated sorting protein 2 (Gprasp2)-SmoM2 ciliary targeting complex, whereas one antagonist of ionotropic receptors prevents intracellular trafficking of Smo to the PC. Together, these findings identify several compounds with the potential to treat drug-resistant SmoM2-driven cancer forms, but also reveal off-target effects of established drugs in the clinics.",

author = "Bomi Jung and Messias, {Ana C.} and Kenji Schorpp and Arie Geerlof and G{\"u}nter Schneider and Dieter Saur and Kamyar Hadian and Michael Sattler and Wanker, {Erich E.} and Stefan Hasen{\"o}der and Heiko Lickert",

note = "Funding Information: We are grateful to A. L{\"a}rfors, A. Korostylev and R. Toftg{\aa}rd for valuable comments and discussions and to A. Theis for excellent technical support. We thank J. Briscoe and V. Ribes for the generation of the original GBS-GFP transgenic reporter lines. This work was supported by an Emmy-Noether Fellowship and the European Union with the ERC starting grant awarded to H.L. Financial support was additionally provided by the German Center for Diabetes Research (DZD e.V.) and the Helmholtz Alliance ICEMED-Imaging and Curing Environmental Metabolic Diseases.",

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doi = "10.1038/srep22540",

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T1 - Novel small molecules targeting ciliary transport of Smoothened and oncogenic Hedgehog pathway activation

AU - Jung, Bomi

AU - Messias, Ana C.

AU - Schorpp, Kenji

AU - Geerlof, Arie

AU - Schneider, Günter

AU - Saur, Dieter

AU - Hadian, Kamyar

AU - Sattler, Michael

AU - Wanker, Erich E.

AU - Hasenöder, Stefan

AU - Lickert, Heiko

N1 - Funding Information: We are grateful to A. Lärfors, A. Korostylev and R. Toftgård for valuable comments and discussions and to A. Theis for excellent technical support. We thank J. Briscoe and V. Ribes for the generation of the original GBS-GFP transgenic reporter lines. This work was supported by an Emmy-Noether Fellowship and the European Union with the ERC starting grant awarded to H.L. Financial support was additionally provided by the German Center for Diabetes Research (DZD e.V.) and the Helmholtz Alliance ICEMED-Imaging and Curing Environmental Metabolic Diseases.

PY - 2016/3/2

Y1 - 2016/3/2

N2 - Trafficking of the G protein-coupled receptor (GPCR) Smoothened (Smo) to the primary cilium (PC) is a potential target to inhibit oncogenic Hh pathway activation in a large number of tumors. One drawback is the appearance of Smo mutations that resist drug treatment, which is a common reason for cancer treatment failure. Here, we undertook a high content screen with compounds in preclinical or clinical development and identified ten small molecules that prevent constitutive active mutant SmoM2 transport into PC for subsequent Hh pathway activation. Eight of the ten small molecules act through direct interference with the G protein-coupled receptor associated sorting protein 2 (Gprasp2)-SmoM2 ciliary targeting complex, whereas one antagonist of ionotropic receptors prevents intracellular trafficking of Smo to the PC. Together, these findings identify several compounds with the potential to treat drug-resistant SmoM2-driven cancer forms, but also reveal off-target effects of established drugs in the clinics.

AB - Trafficking of the G protein-coupled receptor (GPCR) Smoothened (Smo) to the primary cilium (PC) is a potential target to inhibit oncogenic Hh pathway activation in a large number of tumors. One drawback is the appearance of Smo mutations that resist drug treatment, which is a common reason for cancer treatment failure. Here, we undertook a high content screen with compounds in preclinical or clinical development and identified ten small molecules that prevent constitutive active mutant SmoM2 transport into PC for subsequent Hh pathway activation. Eight of the ten small molecules act through direct interference with the G protein-coupled receptor associated sorting protein 2 (Gprasp2)-SmoM2 ciliary targeting complex, whereas one antagonist of ionotropic receptors prevents intracellular trafficking of Smo to the PC. Together, these findings identify several compounds with the potential to treat drug-resistant SmoM2-driven cancer forms, but also reveal off-target effects of established drugs in the clinics.

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Novel small molecules targeting ciliary transport of Smoothened and oncogenic Hedgehog pathway activation

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