Gunther Zimmermann scite author profile

The KRAS oncogene product is considered a major target in anticancer drug discovery. However, direct interference with KRAS signalling has not yet led to clinically useful drugs. Correct localization and signalling by farnesylated KRAS is regulated by the prenyl-binding protein PDEδ, which sustains the spatial organization of KRAS by facilitating its diffusion in the cytoplasm. Here we report that interfering with binding of mammalian PDEδ to KRAS by means of small molecules provides a novel opportunity to suppress oncogenic RAS signalling by altering its localization to endomembranes. Biochemical screening and subsequent structure-based hit optimization yielded inhibitors of the KRAS-PDEδ interaction that selectively bind to the prenyl-binding pocket of PDEδ with nanomolar affinity, inhibit oncogenic RAS signalling and suppress in vitro and in vivo proliferation of human pancreatic ductal adenocarcinoma cells that are dependent on oncogenic KRAS. Our findings may inspire novel drug discovery efforts aimed at the development of drugs targeting oncogenic RAS.

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Small-molecule modulation of Ras signaling

Spiegel

et al. 2014

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Despite intense efforts in pharmaceutical industry and academia, a therapeutic grip on oncogenic Ras proteins has remained elusive. Mutated Ras is associated with ~20-30% of all human cancers often not responsive to established therapies. In particular, K-Ras, the most frequently mutated Ras isoform, is considered one of the most important but 'undruggable' targets in cancer research. Recently, new cavities on Ras for small-molecule ligands were identified, and selective direct targeting of mutated K-Ras(G12C) has become possible for what is to our knowledge the first time. In addition, impairment of Ras spatial organization, in particular via targeting the prenyl-binding Ras chaperone PDEδ, has opened a fresh perspective in anticancer research. These recent advances fuel hopes for the development of new drugs targeting Ras.

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Identification of pyrazolopyridazinones as PDEδ inhibitors

et al. 2016

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The prenyl-binding protein PDEδ is crucial for the plasma membrane localization of prenylated Ras. Recently, we have reported that the small-molecule Deltarasin binds to the prenyl-binding pocket of PDEδ, and impairs Ras enrichment at the plasma membrane, thereby affecting the proliferation of KRas-dependent human pancreatic ductal adenocarcinoma cell lines. Here, using structure-based compound design, we have now identified pyrazolopyridazinones as a novel, unrelated chemotype that binds to the prenyl-binding pocket of PDEδ with high affinity, thereby displacing prenylated Ras proteins in cells. Our results show that the new PDEδ inhibitor, named Deltazinone 1, is highly selective, exhibits less unspecific cytotoxicity than the previously reported Deltarasin and demonstrates a high correlation with the phenotypic effect of PDEδ knockdown in a set of human pancreatic cancer cell lines.

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DNA-encoded chemical libraries: foundations and applications in lead discovery

Zimmermann

Neri

2016

Drug Discovery Today

116

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DNA-encoded chemical libraries have emerged as a powerful means for hit identification in the pharmaceutical industry and in academia. Similar to biological display techniques (such as phage display technology), DNA-encoded chemical libraries contain a link between the displayed chemical building block and an amplifiable genetic "barcode" on DNA. Using routine procedures, libraries containing millions to billions of compounds can be easily produced within a few weeks. The resulting compound libraries are screened in a single test tube against proteins of pharmaceutical interest and hits can be identified by PCR amplification of DNA-barcodes and subsequent high-throughput sequencing. Various types of DNA-encoded chemical libraries can be considered for practical applications. For example, researchers may choose between libraries containing two or three sets of building blocks. The latter approach enables the synthesis of larger libraries, but typically yields hits, which are bigger than 500 Dalton. Moreover, it is possible to display pairs of molecules on complementary DNA strands, thus enabling the combinatorial assembly of library members.

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