Inhibiting AMPylation: A Novel Screen To Identify the First Small Molecule Inhibitors of Protein AMPylation

Lewallen, Daniel M.; Sreelatha, Anju; Dharmarajan, Venkatasubramanian; Madoux, Franck; Chase, Peter; Griffin, Patrick R.; Orth, Kim; Hodder, Peter; Thompson, Paul R.

doi:10.1021/cb4006886

Cited by 26 publications

(27 citation statements)

References 29 publications

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“…A threonine/AMP-specific mouse serum was used to confirm VopS-mediated AMPylation of Cdc42 and Rac1 and to study HypE-mediated BiP AMPylation (21). In addition, a set of small molecules inhibiting VopS in in vitro assays has been characterized (22). However, such tools are few in number.…”

Section: All Heavy Chain-only Antibody Variable Domains Bind Hype Whementioning

confidence: 99%

“…A recent study characterized small molecule inhibitors of VopS; however, these molecules failed to rescue VopS-induced cell rounding and subsequent cell death in tissue culture assays (22). There are other examples of inhibiting or neutralizing V H Hs (35), but only a few V H Hs have shown stimulatory activity, such as a pair of V H Hs capable of increasing the zymogen activity of the carboxypeptidase TAFI (38).…”

Section: Journal Of Biological Chemistrymentioning

confidence: 99%

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HypE-specific Nanobodies as Tools to Modulate HypE-mediated Target AMPylation

Truttmann

Qin

Stiegeler

et al. 2015

Journal of Biological Chemistry

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Section: All Heavy Chain-only Antibody Variable Domains Bind Hype Whementioning

confidence: 99%

Section: Journal Of Biological Chemistrymentioning

confidence: 99%

HypE-specific Nanobodies as Tools to Modulate HypE-mediated Target AMPylation

Truttmann

Qin

Stiegeler

et al. 2015

Journal of Biological Chemistry

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“…This method has identified many times more candidate substrates compared with all previous methods 10,14,15,17–19 ; (2) High throughput . Thousands of unique proteins can be tested simultaneously.…”

Section: Introductionmentioning

confidence: 99%

High-throughput identification of proteins with AMPylation using self-assembled human protein (NAPPA) microarrays

LaBaer

2015

Nat Protoc

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Summary AMPylation (adenylylation) has been recognized as an important post translational modification employed by pathogens to regulate host cellular proteins and their associated signaling pathways. AMPylation has potential functions in various cellular processes and is widely conserved across both prokaryotes and eukaryotes. However, despite the identification of many AMPylators, relatively few candidate substrates of AMPylation are known. This is changing with the recent development of a robust and reliable method to identify new substrates using protein microarrays, which can significantly expand the list of potential substrates. Here, we describe procedures to detect AMPylated and auto-AMPylated proteins in a sensitive, high throughput, and non-radioactive manner. The approach employs high-density protein microarrays fabricated using NAPPA (Nucleic Acid Programmable Protein Arrays) technology, which enables the highly successful display of fresh recombinant human proteins in situ. The modification of target proteins is determined via copper-catalyzed azide–alkyne cycloaddition. The assay can be accomplished within 11 hours.

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“…Correlating deuterium incorporation patterns from several small molecule ligands with functional assays has proven to be an effective approach to develop structure activity relationship and delineate functional selectivity between closely related compounds [10-13]. HDX-MS also provides a means to identify allosteric small molecule binding sites [2, 14, 15], which are often challenging to locate but desirable for the development of agents with improved selectivity.…”

Section: Hdx-ms Introductionmentioning

confidence: 99%

HDX-MS guided drug discovery: small molecules and biopharmaceuticals

Marciano

Dharmarajan

Griffin

2014

Current Opinion in Structural Biology

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Hydrogen/deuterium exchange coupled with mass spectrometry (HDX-MS or DXMS) has emerged as an important tool for the development of small molecule therapeutics and biopharmaceuticals. Central to these advances have been improvements to automated HDX-MS platforms and software that allow for the rapid acquisition and processing of experimental data. Correlating the HDX-MS profile of large numbers of ligands with their functional outputs has enabled the development of structure activity relationships (SAR) and delineation of ligand classes based on functional selectivity. HDX-MS has also been applied to address many of the unique challenges posed by the continued emergence of biopharmaceuticals. Here we review the latest applications of HDX-MS to drug discovery, recent advances in technology and software, and provide perspective on future outlook.

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Inhibiting AMPylation: A Novel Screen To Identify the First Small Molecule Inhibitors of Protein AMPylation

Cited by 26 publications

References 29 publications

HypE-specific Nanobodies as Tools to Modulate HypE-mediated Target AMPylation

HypE-specific Nanobodies as Tools to Modulate HypE-mediated Target AMPylation

High-throughput identification of proteins with AMPylation using self-assembled human protein (NAPPA) microarrays

HDX-MS guided drug discovery: small molecules and biopharmaceuticals

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