Lee R. Roberts scite author profile

Kinases are principal components of signal transduction pathways and the focus of intense basic and drug discovery research. Irreversible inhibitors that covalently modify non-catalytic cysteines in kinase active-sites have emerged as valuable probes and approved drugs. Many protein classes, however, possess functional cysteines and therefore understanding the proteome-wide selectivity of covalent kinase inhibitors is imperative. Here, we accomplish this objective using activity-based protein profiling coupled with quantitative mass spectrometry to globally map the targets, both specific and non-specific, of covalent kinase inhibitors in human cells. Many of the specific off-targets represent non-kinase proteins that, interestingly, possess conserved, active-site cysteines. We define windows of selectivity for covalent kinase inhibitors and show that, when these windows are exceeded, rampant proteome-wide reactivity and kinase target-independent cell death conjointly occur. Our findings, taken together, provide an experimental roadmap to illuminate opportunities and surmount challenges for the development of covalent kinase inhibitors.

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Design and Structure of Stapled Peptides Binding to Estrogen Receptors

Phillips

et al. 2011

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Synthetic peptides that specifically bind nuclear hormone receptors offer an alternative approach to small molecules for the modulation of receptor signaling and subsequent gene expression. Here we describe the design of a series of novel stapled peptides that bind the coactivator peptide site of estrogen receptors. Using a number of biophysical techniques, including crystal structure analysis of receptor-stapled peptide complexes, we describe in detail the molecular interactions and demonstrate that all-hydrocarbon staples modulate molecular recognition events. The findings have implications for the design of stapled peptides in general.

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( R )-PFI-2 is a potent and selective inhibitor of SETD7 methyltransferase activity in cells

Baršytė-Lovejoy

Oudhoff

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

168

165

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Significance Protein methyltransferases constitute an emerging but undercharacterized class of therapeutic targets with diverse roles in normal human biology and disease. Small-molecule “chemical probes” can be powerful tools for the functional characterization of such enzymes, and here we report the discovery of ( R )-PFI-2—a first-in-class, potent, highly selective, and cell-active inhibitor of the methyltransferase activity of SETD7 [SET domain containing (lysine methyltransferase) 7]—and two related compounds for control and chemoproteomics studies. We used these compounds to characterize the role of SETD7 in signaling, in the Hippo pathway, that controls cell growth and organ size. Our work establishes a chemical biology tool kit for the study of the diverse roles of SETD7 in cells and further validates protein methyltransferases as a druggable target class.

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Gut microbial β-glucuronidases reactivate estrogens as components of the estrobolome that reactivate estrogens

Ervin

Lim

et al. 2019

Journal of Biological Chemistry

216

157

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Edited by Wolfgang Peti Gut microbial ␤-glucuronidase (GUS) enzymes have been suggested to be involved in the estrobolome, the collection of microbial reactions involving estrogens. Furthermore, bacterial GUS enzymes within the gastrointestinal tract have been postulated to be a contributing factor in hormone-driven cancers. However, to date, there has been no experimental evidence to support these hypotheses. Here we provide the first in vitro analysis of the ability of 35 human gut microbial GUS enzymes to reactivate two distinct estrogen glucuronides, estrone-3-glucuronide and estradiol-17-glucuronide, to estrone and estradiol, respectively. We show that certain members within the Loop 1, mini-Loop 1, and FMN-binding classes of gut microbial GUS enzymes can reactivate estrogens from their inactive glucuronides. We provide molecular details of key interactions that facilitate these catalytic processes and present the structures of two novel human gut microbial GUS enzymes related to the estrobolome. Further, we demonstrate that estrogen reactivation by Loop 1 bacterial GUS enzymes can be inhibited both in purified enzymes and in fecal preparations of mixed murine fecal microbiota. Finally, however, despite these in vitro and ex vivo data, we show that a Loop 1 GUS-specific inhibitor is not capable of reducing the development of tumors in the PyMT mouse model of breast cancer. These findings validate that gut microbial GUS enzymes participate in the estrobolome but also suggest that the estrobolome is a multidimensional set of processes ongoing within the mammalian gastrointestinal tract that likely involves many enzymes, including several distinct types of GUS proteins.

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Rational Targeting of Active-Site Tyrosine Residues Using Sulfonyl Fluoride Probes

et al. 2015

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This work describes the first rational targeting of tyrosine residues in a protein binding site by small-molecule covalent probes. Specific tyrosine residues in the active site of the mRNA-decapping scavenger enzyme DcpS were modified using reactive sulfonyl fluoride covalent inhibitors. Structure-based molecular design was used to create an alkyne-tagged probe bearing the sulfonyl fluoride warhead, thus enabling the efficient capture of the protein from a complex proteome. Use of the probe in competition experiments with a diaminoquinazoline DcpS inhibitor permitted the quantification of intracellular target occupancy. As a result, diaminoquinazoline upregulators of survival motor neuron protein that are used for the treatment of spinal muscular atrophy were confirmed as inhibitors of DcpS in human primary cells. This work illustrates the utility of sulfonyl fluoride probes designed to react with specific tyrosine residues of a protein and augments the chemical biology toolkit by these probes uses in target validation and molecular pharmacology.

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Lee R. Roberts

A road map to evaluate the proteome-wide selectivity of covalent kinase inhibitors

Design and Structure of Stapled Peptides Binding to Estrogen Receptors

( R )-PFI-2 is a potent and selective inhibitor of SETD7 methyltransferase activity in cells

Gut microbial β-glucuronidases reactivate estrogens as components of the estrobolome that reactivate estrogens

Rational Targeting of Active-Site Tyrosine Residues Using Sulfonyl Fluoride Probes

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