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1.
J Med Chem ; 65(24): 16268-16289, 2022 12 22.
Article in English | MEDLINE | ID: mdl-36459434

ABSTRACT

Identification and analysis of small molecule bioactivity in target-agnostic cellular assays and monitoring changes in phenotype followed by identification of the biological target are a powerful approach for the identification of novel bioactive chemical matter in particular when the monitored phenotype is disease-related and physiologically relevant. Profiling methods that enable the unbiased analysis of compound-perturbed states can suggest mechanisms of action or even targets for bioactive small molecules and may yield novel insights into biology. Here we report the enantioselective synthesis of natural-product-inspired 8-oxotetrahydroprotoberberines and the identification of Picoberin, a low picomolar inhibitor of Hedgehog (Hh)-induced osteoblast differentiation. Global transcriptome and proteome profiling revealed the aryl hydrocarbon receptor (AhR) as the molecular target of this compound and identified a cross talk between Hh and AhR signaling during osteoblast differentiation.


Subject(s)
Hedgehog Proteins , Receptors, Aryl Hydrocarbon , Receptors, Aryl Hydrocarbon/genetics , Signal Transduction , Cell Differentiation , Osteoblasts/metabolism
2.
Science ; 374(6563): 87-92, 2021 Oct.
Article in English | MEDLINE | ID: mdl-34591636

ABSTRACT

Early warning is a critical potential tool for mitigating the impacts of large mass wasting and flood events, a major hazard in the Himalaya. We used data from a dense seismic network in Uttarakhand, India, to detect and track a fatal rockslide to mass flow to flood cascade and examine the potential for regional networks to provide early warning for extreme flow events. Detection limits of the 7 February 2021 event depend on the nature of the active process and on the anthropogenic and environmental seismic noise levels at each station. With the existing network, a seismic monitoring system could have detected all event phases from up to 100 kilometers and provided downstream warnings within minutes of event initiation.

3.
Cell Chem Biol ; 28(6): 848-854.e5, 2021 06 17.
Article in English | MEDLINE | ID: mdl-33567254

ABSTRACT

Phenotypic screening for bioactive small molecules is typically combined with affinity-based chemical proteomics to uncover the respective molecular targets. However, such assays and the explored bioactivity are biased toward the monitored phenotype, and target identification often requires chemical derivatization of the hit compound. In contrast, unbiased cellular profiling approaches record hundreds of parameters upon compound perturbation to map bioactivity in a broader biological context and may link a profile to the molecular target or mode of action. Herein we report the discovery of the diaminopyrimidine DP68 as a Sigma 1 (σ1) receptor antagonist by combining morphological profiling using the Cell Painting assay and thermal proteome profiling. Our results highlight that integration of complementary profiling approaches may enable both detection of bioactivity and target identification for small molecules.


Subject(s)
Aniline Compounds/pharmacology , Drug Discovery , Heterocyclic Compounds, 2-Ring/pharmacology , Proteome/genetics , Receptors, sigma/antagonists & inhibitors , Small Molecule Libraries/pharmacology , Temperature , Aniline Compounds/chemistry , Animals , Female , Gene Expression Profiling , Heterocyclic Compounds, 2-Ring/chemistry , Humans , Mice , Molecular Structure , Small Molecule Libraries/chemistry , Tumor Cells, Cultured , Sigma-1 Receptor
4.
J Med Chem ; 63(20): 11972-11989, 2020 10 22.
Article in English | MEDLINE | ID: mdl-32907324

ABSTRACT

Transcriptional enhanced associate domain (TEAD) transcription factors together with coactivators and corepressors modulate the expression of genes that regulate fundamental processes, such as organogenesis and cell growth, and elevated TEAD activity is associated with tumorigenesis. Hence, novel modulators of TEAD and methods for their identification are in high demand. We describe the development of a new "thiol conjugation assay" for identification of novel small molecules that bind to the TEAD central pocket. The assay monitors prevention of covalent binding of a fluorescence turn-on probe to a cysteine in the central pocket by small molecules. Screening of a collection of compounds revealed kojic acid analogues as TEAD inhibitors, which covalently target the cysteine in the central pocket, block the interaction with coactivator yes-associated protein with nanomolar apparent IC50 values, and reduce TEAD target gene expression. This methodology promises to enable new medicinal chemistry programs aimed at the modulation of TEAD activity.


Subject(s)
Drug Discovery , Pyrones/pharmacology , Small Molecule Libraries/pharmacology , Sulfhydryl Compounds/pharmacology , Transcription Factors/antagonists & inhibitors , Dose-Response Relationship, Drug , Fluorescence , Humans , Models, Molecular , Molecular Structure , Pyrones/chemistry , Small Molecule Libraries/chemistry , Structure-Activity Relationship , Sulfhydryl Compounds/chemistry , Transcription Factors/genetics
5.
Chem Sci ; 11(46): 12506-12511, 2020 Oct 20.
Article in English | MEDLINE | ID: mdl-34123231

ABSTRACT

Enrichment of chromatin segments from specific genomic loci of living cells is an important goal in chromatin biology, since it enables establishing local molecular compositions as the basis of locus function. A central enrichment strategy relies on the expression of DNA-binding domains that selectively interact with a local target sequence followed by fixation and isolation of the associated chromatin segment. The efficiency and selectivity of this approach critically depend on the employed enrichment tag and the strategy used for its introduction into the DNA-binding domain or close-by proteins. We here report chromatin enrichment by expressing programmable transcription-activator-like effectors (TALEs) bearing single strained alkynes or alkenes introduced via genetic code expansion. This enables in situ biotinylation at a defined TALE site via strain-promoted inverse electron demand Diels Alder cycloadditions for single-step, high affinity enrichment. By targeting human pericentromeric SATIII repeats, the origin of nuclear stress bodies, we demonstrate enrichment of SATIII DNA and SATIII-associated proteins, and identify factors enriched during heat stress.

6.
Angew Chem Int Ed Engl ; 58(47): 17016-17025, 2019 11 18.
Article in English | MEDLINE | ID: mdl-31469221

ABSTRACT

Bioactive compound design based on natural product (NP) structure may be limited because of partial coverage of NP-like chemical space and biological target space. These limitations can be overcome by combining NP-centered strategies with fragment-based compound design through combination of NP-derived fragments to afford structurally unprecedented "pseudo-natural products" (pseudo-NPs). The design, synthesis, and biological evaluation of a collection of indomorphan pseudo-NPs that combine biosynthetically unrelated indole- and morphan-alkaloid fragments are described. Indomorphane derivative Glupin was identified as a potent inhibitor of glucose uptake by selectively targeting and upregulating glucose transporters GLUT-1 and GLUT-3. Glupin suppresses glycolysis, reduces the levels of glucose-derived metabolites, and attenuates the growth of various cancer cell lines. Our findings underscore the importance of dual GLUT-1 and GLUT-3 inhibition to efficiently suppress tumor cell growth and the cellular rescue mechanism, which counteracts glucose scarcity.


Subject(s)
Biological Products/pharmacology , Cell Proliferation , Glucose Transporter Type 1/antagonists & inhibitors , Glucose Transporter Type 3/antagonists & inhibitors , Glucose/metabolism , Morphinans/chemical synthesis , Neoplasms/drug therapy , Biological Transport , Cell Cycle , Glycolysis , Humans , Tumor Cells, Cultured
7.
Nat Chem Biol ; 15(7): 710-720, 2019 07.
Article in English | MEDLINE | ID: mdl-31222192

ABSTRACT

Autophagy mediates the degradation of damaged proteins, organelles and pathogens, and plays a key role in health and disease. Thus, the identification of new mechanisms involved in the regulation of autophagy is of major interest. In particular, little is known about the role of lipids and lipid-binding proteins in the early steps of autophagosome biogenesis. Using target-agnostic, high-content, image-based identification of indicative phenotypic changes induced by small molecules, we have identified autogramins as a new class of autophagy inhibitor. Autogramins selectively target the recently discovered cholesterol transfer protein GRAM domain-containing protein 1A (GRAMD1A, which had not previously been implicated in autophagy), and directly compete with cholesterol binding to the GRAMD1A StART domain. GRAMD1A accumulates at sites of autophagosome initiation, affects cholesterol distribution in response to starvation and is required for autophagosome biogenesis. These findings identify a new biological function of GRAMD1A and a new role for cholesterol in autophagy.


Subject(s)
Autophagosomes/metabolism , Membrane Proteins/metabolism , Autophagosomes/drug effects , Autophagy/drug effects , Humans , Membrane Proteins/antagonists & inhibitors , Models, Molecular , Small Molecule Libraries/chemistry , Small Molecule Libraries/pharmacology , Tumor Cells, Cultured
8.
Methods Mol Biol ; 1888: 73-98, 2019.
Article in English | MEDLINE | ID: mdl-30519941

ABSTRACT

The identification of protein targets and the elucidation of the molecular mechanism of action (MMoA) of bioactive small molecules are central goals of chemical biology. Many different techniques for target identification and engagement are developed, but none of them is generic. Here we describe one of these techniques-the cellular thermal shift assay (CETSA). The assay works without any labeling of proteins or small molecules, which allows the investigation of the unaltered interaction between the interaction partners. Briefly, the influence of small molecules on the thermal stability of proteins within whole cell lysates is investigated. We describe this approach in two variants: the conventional immunoblot-based approach (CETSA), as well as an unbiased approach based on a proteome-wide mass spectrometric analysis (thermal proteome profiling, TPP). The CETSA approach requires preknowledge about possible target proteins and can only detect a few proteins at once. Although TPP is technically more demanding, it allows for the identification of multiple (off)targets without any preknowledge.


Subject(s)
Biological Assay , Drug Discovery/methods , Biological Assay/methods , Blotting, Western , Cell Culture Techniques , Cell Line, Tumor , Chromatography, Liquid , Databases, Factual , Humans , Hydrogen-Ion Concentration , Peptides , Protein Binding , Proteomics/methods , Reproducibility of Results , Small Molecule Libraries , Staining and Labeling , Tandem Mass Spectrometry , Temperature
9.
Angew Chem Int Ed Engl ; 56(9): 2423-2428, 2017 02 20.
Article in English | MEDLINE | ID: mdl-28106325

ABSTRACT

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 (KD <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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