Weichao Li scite author profile

RNAs have important functions that are dictated by their structure. Indeed, small molecules that interact with RNA structures can perturb function, serving as chemical probes and lead medicines. Here we describe the development of a fragment-based approach to discover and optimize bioactive small molecules targeting RNA. We extended the target validation method chemical cross-linking and isolation by pull-down (Chem-CLIP) to identify and map the binding sites of low molecular weight fragments that engage RNA or Chem-CLIP fragment mapping (Chem-CLIP-Frag-Map). Using Chem-CLIP-Frag-Map, we identified several fragments that bind the precursor to oncogenic microRNA-21 (pre-miR-21). Assembly of these fragments provided a specific bioactive compound with improved potency that inhibits pre-miR-21 processing, reducing mature miR-21 levels. The compound exerted selective effects on the transcriptome and selectively mitigated a miR-21–associated invasive phenotype in triple-negative breast cancer cells. The Chem-CLIP-Frag-Map approach should prove general to expedite the identification and optimization of small molecules that bind RNA targets.

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Evaluation of fully-functionalized diazirine tags for chemical proteomic applications

Conway

Jadhav

Homan

et al. 2021

Chem. Sci.

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Mapping glycan-mediated galectin-3 interactions by live cell proximity labeling

Joeh

O’Leary

et al. 2020

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

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Galectin-3 is a glycan-binding protein (GBP) that binds β-galactoside glycan structures to orchestrate a variety of important biological events, including the activation of hepatic stellate cells and regulation of immune responses. While the requisite glycan epitopes needed to bind galectin-3 have long been elucidated, the cellular glycoproteins that bear these glycan signatures remain unknown. Given the importance of the three-dimensional (3D) arrangement of glycans in dictating GBP interactions, strategies that allow the identification of GBP receptors in live cells, where the native glycan presentation and glycoprotein expression are preserved, have significant advantages over static and artificial systems. Here we describe the integration of a proximity labeling method and quantitative mass spectrometry to map the glycan and glycoprotein interactors for galectin-3 in live human hepatic stellate cells and peripheral blood mononuclear cells. Understanding the identity of the glycoproteins and defining the structures of the glycans will empower efforts to design and develop selective therapeutics to mitigate galectin-3–mediated biological events.

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Chemoproteomic-enabled phenotypic screening

Conway

Parker

2021

Cell Chemical Biology

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Chemoproteomic mapping of human milk oligosaccharide (HMO) interactions in cells

et al. 2022

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Weichao Li

A general fragment-based approach to identify and optimize bioactive ligands targeting RNA

Evaluation of fully-functionalized diazirine tags for chemical proteomic applications

Mapping glycan-mediated galectin-3 interactions by live cell proximity labeling

Chemoproteomic-enabled phenotypic screening

Chemoproteomic mapping of human milk oligosaccharide (HMO) interactions in cells

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