Chemoproteomics Reveals the Pan-HER Kinase Inhibitor Neratinib To Target an Arabidopsis Epoxide Hydrolase Related to Phytohormone Signaling

Chemoproteomics Reveals the Pan-HER Kinase Inhibitor Neratinib To Target an Arabidopsis Epoxide Hydrolase Related to Phytohormone Signaling

Plant phytohormone pathways are regulated by an intricate network of signaling components and modulators, many of which still remain unknown. Here, we report a forward chemical genetics approach for the identification of functional SA agonists in Arabidopsis thaliana that revealed Neratinib (Ner), a...

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Veröffentlicht in:ACS chemical biology 2023-05, Vol.18 (5), p.1076-1088
Hauptverfasser: Ninck, Sabrina, Halder, Vivek, Krahn, Jan H., Beisser, Daniela, Resch, Sarah, Dodds, Isobel, Scholtysik, René, Bormann, Jenny, Sewald, Leonard, Gupta, Mainak D., Heilmann, Geronimo, Bhandari, Deepak D., Morimoto, Kyoko, Buscaill, Pierre, Hause, Bettina, van der Hoorn, Renier A. L., Kaschani, Farnusch, Kaiser, Markus
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Arabidopsis - metabolism
Arabidopsis Proteins - metabolism
Epoxide Hydrolases - metabolism
Gene Expression Regulation, Plant
Humans
Plant Growth Regulators - metabolism
Salicylic Acid - metabolism
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container_end_page 1088
container_issue 5
container_start_page 1076
container_title ACS chemical biology
container_volume 18
creator Ninck, Sabrina
Halder, Vivek
Krahn, Jan H.
Beisser, Daniela
Resch, Sarah
Dodds, Isobel
Scholtysik, René
Bormann, Jenny
Sewald, Leonard
Gupta, Mainak D.
Heilmann, Geronimo
Bhandari, Deepak D.
Morimoto, Kyoko
Buscaill, Pierre
Hause, Bettina
van der Hoorn, Renier A. L.
Kaschani, Farnusch
Kaiser, Markus
description Plant phytohormone pathways are regulated by an intricate network of signaling components and modulators, many of which still remain unknown. Here, we report a forward chemical genetics approach for the identification of functional SA agonists in Arabidopsis thaliana that revealed Neratinib (Ner), a covalent pan-HER kinase inhibitor drug in humans, as a modulator of SA signaling. Instead of a protein kinase, chemoproteomics unveiled that Ner covalently modifies a surface-exposed cysteine residue of Arabidopsis epoxide hydrolase isoform 7 (AtEH7), thereby triggering its allosteric inhibition. Physiologically, the Ner application induces jasmonate metabolism in an AtEH7-dependent manner as an early response. In addition, it modulates PATHOGENESIS RELATED 1 (PR1) expression as a hallmark of SA signaling activation as a later effect. AtEH7, however, is not the exclusive target for this physiological readout induced by Ner. Although the underlying molecular mechanisms of AtEH7-dependent modulation of jasmonate signaling and Ner-induced PR1-dependent activation of SA signaling and thus defense response regulation remain unknown, our present work illustrates the powerful combination of forward chemical genetics and chemical proteomics for identifying novel phytohormone signaling modulatory factors. It also suggests that marginally explored metabolic enzymes such as epoxide hydrolases may have further physiological roles in modulating signaling.
doi_str_mv 10.1021/acschembio.2c00322
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subjects Arabidopsis - metabolism
Arabidopsis Proteins - metabolism
Epoxide Hydrolases - metabolism
Gene Expression Regulation, Plant
Humans
Plant Growth Regulators - metabolism
Salicylic Acid - metabolism
title Chemoproteomics Reveals the Pan-HER Kinase Inhibitor Neratinib To Target an Arabidopsis Epoxide Hydrolase Related to Phytohormone Signaling
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