Christian Klein scite author profile

Small-molecule inhibition of the interaction between the KRas oncoprotein and the chaperone PDE6δ impairs KRas spatial organization and signaling in cells. However, despite potent binding in vitro (K <10 nm), interference with Ras signaling and growth inhibition require 5-20 μm compound concentrations. We demonstrate that these findings can be explained by fast release of high-affinity inhibitors from PDE6δ by the release factor Arl2. This limitation is overcome by novel highly selective inhibitors that bind to PDE6δ with up to 7 hydrogen bonds, resulting in picomolar affinity. Their release by Arl2 is greatly decreased, and representative compounds selectively inhibit growth of KRas mutated and -dependent cells with the highest activity recorded yet. Our findings indicate that very potent inhibitors of the KRas-PDE6δ interaction may impair the growth of tumors driven by oncogenic KRas.

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A PDE6δ‐KRas Inhibitor Chemotype with up to Seven H‐Bonds and Picomolar Affinity that Prevents Efficient Inhibitor Release by Arl2

Martín‐Gago

Fansa

Klein

et al. 2017

Angewandte Chemie

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Small-molecule inhibition of the interaction between the KRas oncoprotein and the chaperone PDE6d impairs KRas spatial organization and signaling in cells.H owever, despite potent binding in vitro (K D < 10 nm), interference with Ras signaling and growth inhibition require 5-20 mm compound concentrations.W edemonstrate that these findings can be explained by fast release of high-affinity inhibitors from PDE6d by the release factor Arl2. This limitation is overcome by novel highly selective inhibitors that bind to PDE6d with up to 7h ydrogen bonds,r esulting in picomolar affinity.T heir release by Arl2 is greatly decreased, and representative compounds selectively inhibit growth of KRas mutated and -dependent cells with the highest activity recorded yet. Our findings indicate that very potent inhibitors of the KRas-PDE6d interaction may impair the growth of tumors driven by oncogenic KRas.

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PDEδ inhibition impedes the proliferation and survival of human colorectal cancer cell lines harboring oncogenic KRas

Klein

Truxius

Vogel

et al. 2018

Intl Journal of Cancer

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Ras proteins, most notably KRas, are prevalent oncogenes in human cancer. Plasma membrane localization and thereby signaling of KRas is regulated by the prenyl-binding protein PDEδ. Recently, we have reported the specific anti-proliferative effects of PDEδ inhibition in KRas-dependent human pancreatic ductal adenocarcinoma cell lines. Here, we investigated the proliferative dependence on the solubilizing activity of PDEδ of human colorectal cancer (CRC) cell lines with or without oncogenic KRas mutations. Our results show that genetic and pharmacologic interference with PDEδ specifically inhibits proliferation and survival of CRC cell lines harboring oncogenic KRas mutations whereas isogenic cell lines in which the KRas oncogene has been removed, or cell lines with oncogenic BRaf mutations or EGFR overexpression are not dependent on PDEδ. Pharmacological PDEδ inhibition is therefore a possible new avenue to target oncogenic KRas bearing CRC.

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Development of Bispecific Molecules for the In Situ Detection of Protein-Protein Interactions and Protein Phosphorylation

Dieck¹,

Schmid²,

Heindl³

et al. 2014

Chemistry & Biology

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Investigation of protein-protein interactions (PPIs) and protein phosphorylation in clinical tissue samples can offer valuable information about the activation status and function of proteins involved in disease progression. However, existing antibody-based methods for phosphorylation detection have been found to lack specificity, and methods developed for examining PPIs in vitro cannot be easily adapted for tissues samples. In this study, we eliminated some of these limitations by developing a specific immunohistochemical staining method that uses "dual binders" (DBs), which are bispecific detection agents consisting of two Fab fragment molecules joined by a flexible linker, to detect PPIs and protein phosphorylation. We engineered DBs by selecting Fab fragments with fast off-rate kinetics, which allowed us to demonstrate that stable target binding was achieved only upon simultaneous, cooperative binding to both epitopes. We show that DBs specifically detect the activated HER2/HER3 complex in formalin-fixed, paraffin-embedded cancer cells and exhibit superior detection specificity for phospho-HER3 compared to the corresponding monoclonal antibody. Overall, the performance of DBs makes them attractive tools for future development for clinical applications.

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PDEδ inhibition impedes the proliferation and survival of human colorectal cancer cell lines harboring oncogenic KRas

Klein

Truxius

Vogel

et al. 2018

Preprint

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Novelty and ImpactThe ‘undruggable’ KRas is a prevalent oncogene in CRC with poor prognosis. In hPDAC cells pharmacological targeting of PDEδ affects oncogenic KRas signaling, but it remained unclear whether this approach is transferable to other cancer cells. Here, we show that genetic and pharmacologic PDEδ inhibition also impedes the proliferation of oncogenic, but not wild-type KRas bearing CRC cells indicating that PDEδ inhibition is a specific tool for targeting growth of oncogenic KRas bearing CRC.AbstractRas proteins, most notably KRas, are prevalent oncogenes in human cancer. Plasma membrane localization and thereby signaling of KRas is regulated by the prenyl-binding protein PDEδ. Recently, we have reported the specific anti-proliferative effects of PDEδ inhibition in KRas-dependent human pancreatic ductal adenocarcinoma cell lines. Here, we investigated the proliferative dependence on the solubilizing activity of PDEδ of human colorectal cancer (CRC) cell lines with or without oncogenic KRas mutations. Our results show that genetic and pharmacologic interference with PDEδ specifically inhibits proliferation and survival of CRC cell lines harboring oncogenic KRas mutations whereas isogenic cell lines in which the KRas oncogene has been removed, or cell lines with oncogenic BRaf mutations or EGFR overexpression are not dependent on PDEδ. Pharmacological PDEδ inhibition is therefore a possible new avenue to target oncogenic KRas bearing CRC.

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Christian Klein

A PDE6δ‐KRas Inhibitor Chemotype with up to Seven H‐Bonds and Picomolar Affinity that Prevents Efficient Inhibitor Release by Arl2

A PDE6δ‐KRas Inhibitor Chemotype with up to Seven H‐Bonds and Picomolar Affinity that Prevents Efficient Inhibitor Release by Arl2

PDEδ inhibition impedes the proliferation and survival of human colorectal cancer cell lines harboring oncogenic KRas

Development of Bispecific Molecules for the In Situ Detection of Protein-Protein Interactions and Protein Phosphorylation

PDEδ inhibition impedes the proliferation and survival of human colorectal cancer cell lines harboring oncogenic KRas

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