Organ-specific electrophile responsivity mapping in live C. elegans

Proximity labeling technologies are limited to indexing localized protein residents. Such data-although valuable-cannot inform on small-molecule responsivity of local residents. We here bridge this gap by demonstrating in live C. elegans how electrophile-sensing propensity in specific organs can be...

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Vydáno v:	Cell Ročník 187; číslo 26; s. 7450
Hlavní autoři:	Liu, Jinmin, Kulkarni, Amogh, Gao, Yong-Qi, Urul, Daniel A, Hamelin, Romain, Novotny, Balázs Á, Long, Marcus J C, Aye, Yimon
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	United States 26.12.2024
Témata:	Animals Caenorhabditis elegans - metabolism Caenorhabditis elegans Proteins - metabolism Cysteine - metabolism Cytochrome P-450 Enzyme System - metabolism Humans Organ Specificity Stress, Physiological reactive metabolite signaling tissue-specific stress response proximity labeling proteomics C. elegans organ-specific responsivity profiling cytochrome P450 4-hydroxynonenal function-guided spatial mapping
ISSN:	1097-4172, 1097-4172
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Abstract	Proximity labeling technologies are limited to indexing localized protein residents. Such data-although valuable-cannot inform on small-molecule responsivity of local residents. We here bridge this gap by demonstrating in live C. elegans how electrophile-sensing propensity in specific organs can be quantitatively mapped and ranked. Using this method, >70% of tissue-specific responders exhibit electrophile responsivity, independent of tissue-specific abundance. One responder, cyp-33e1-for which both human and worm orthologs are electrophile responsive-marshals stress-dependent gut functions, despite manifesting uniform abundance across all tissues studied. Cyp-33e1's localized electrophile responsivity operates site specifically, triggering multifaceted responses: electrophile sensing through the catalytic-site cysteine results in partitioning between enzyme inhibition and localized production of a critical metabolite that governs global lipid availability, whereas rapid dual-cysteine site-specific sensing modulates gut homeostasis. Beyond pinpointing chemical actionability within local proteomes, organ-specific electrophile responsivity mapping illuminates otherwise intractable locale-specific metabolite signaling and stress response programs influencing organ-specific decision-making.
AbstractList	Proximity labeling technologies are limited to indexing localized protein residents. Such data-although valuable-cannot inform on small-molecule responsivity of local residents. We here bridge this gap by demonstrating in live C. elegans how electrophile-sensing propensity in specific organs can be quantitatively mapped and ranked. Using this method, >70% of tissue-specific responders exhibit electrophile responsivity, independent of tissue-specific abundance. One responder, cyp-33e1-for which both human and worm orthologs are electrophile responsive-marshals stress-dependent gut functions, despite manifesting uniform abundance across all tissues studied. Cyp-33e1's localized electrophile responsivity operates site specifically, triggering multifaceted responses: electrophile sensing through the catalytic-site cysteine results in partitioning between enzyme inhibition and localized production of a critical metabolite that governs global lipid availability, whereas rapid dual-cysteine site-specific sensing modulates gut homeostasis. Beyond pinpointing chemical actionability within local proteomes, organ-specific electrophile responsivity mapping illuminates otherwise intractable locale-specific metabolite signaling and stress response programs influencing organ-specific decision-making.Proximity labeling technologies are limited to indexing localized protein residents. Such data-although valuable-cannot inform on small-molecule responsivity of local residents. We here bridge this gap by demonstrating in live C. elegans how electrophile-sensing propensity in specific organs can be quantitatively mapped and ranked. Using this method, >70% of tissue-specific responders exhibit electrophile responsivity, independent of tissue-specific abundance. One responder, cyp-33e1-for which both human and worm orthologs are electrophile responsive-marshals stress-dependent gut functions, despite manifesting uniform abundance across all tissues studied. Cyp-33e1's localized electrophile responsivity operates site specifically, triggering multifaceted responses: electrophile sensing through the catalytic-site cysteine results in partitioning between enzyme inhibition and localized production of a critical metabolite that governs global lipid availability, whereas rapid dual-cysteine site-specific sensing modulates gut homeostasis. Beyond pinpointing chemical actionability within local proteomes, organ-specific electrophile responsivity mapping illuminates otherwise intractable locale-specific metabolite signaling and stress response programs influencing organ-specific decision-making. Proximity labeling technologies are limited to indexing localized protein residents. Such data-although valuable-cannot inform on small-molecule responsivity of local residents. We here bridge this gap by demonstrating in live C. elegans how electrophile-sensing propensity in specific organs can be quantitatively mapped and ranked. Using this method, >70% of tissue-specific responders exhibit electrophile responsivity, independent of tissue-specific abundance. One responder, cyp-33e1-for which both human and worm orthologs are electrophile responsive-marshals stress-dependent gut functions, despite manifesting uniform abundance across all tissues studied. Cyp-33e1's localized electrophile responsivity operates site specifically, triggering multifaceted responses: electrophile sensing through the catalytic-site cysteine results in partitioning between enzyme inhibition and localized production of a critical metabolite that governs global lipid availability, whereas rapid dual-cysteine site-specific sensing modulates gut homeostasis. Beyond pinpointing chemical actionability within local proteomes, organ-specific electrophile responsivity mapping illuminates otherwise intractable locale-specific metabolite signaling and stress response programs influencing organ-specific decision-making.
Author	Gao, Yong-Qi Aye, Yimon Hamelin, Romain Long, Marcus J C Kulkarni, Amogh Urul, Daniel A Liu, Jinmin Novotny, Balázs Á
Author_xml	– sequence: 1 givenname: Jinmin surname: Liu fullname: Liu, Jinmin organization: Department of Chemistry, University of Oxford, Oxford OX1 3TA, UK; Swiss Federal Institute of Technology Lausanne, Lausanne 1015, Switzerland – sequence: 2 givenname: Amogh surname: Kulkarni fullname: Kulkarni, Amogh organization: Swiss Federal Institute of Technology Lausanne, Lausanne 1015, Switzerland; Friedrich Schiller University, 07737 Jena, Germany – sequence: 3 givenname: Yong-Qi surname: Gao fullname: Gao, Yong-Qi organization: Swiss Federal Institute of Technology Lausanne, Lausanne 1015, Switzerland – sequence: 4 givenname: Daniel A surname: Urul fullname: Urul, Daniel A organization: Swiss Federal Institute of Technology Lausanne, Lausanne 1015, Switzerland; AssayQuant Technologies, Marlboro, MA 01752, USA – sequence: 5 givenname: Romain surname: Hamelin fullname: Hamelin, Romain organization: Swiss Federal Institute of Technology Lausanne, Lausanne 1015, Switzerland – sequence: 6 givenname: Balázs Á surname: Novotny fullname: Novotny, Balázs Á organization: Swiss Federal Institute of Technology Lausanne, Lausanne 1015, Switzerland – sequence: 7 givenname: Marcus J C surname: Long fullname: Long, Marcus J C email: marcusjohncurtis.long@unil.ch organization: University of Lausanne, Lausanne 1015, Switzerland. Electronic address: marcusjohncurtis.long@unil.ch – sequence: 8 givenname: Yimon surname: Aye fullname: Aye, Yimon email: yimon.aye@chem.ox.ac.uk organization: Department of Chemistry, University of Oxford, Oxford OX1 3TA, UK; Swiss Federal Institute of Technology Lausanne, Lausanne 1015, Switzerland. Electronic address: yimon.aye@chem.ox.ac.uk
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Keywords	reactive metabolite signaling tissue-specific stress response proximity labeling proteomics C. elegans organ-specific responsivity profiling cytochrome P450 4-hydroxynonenal function-guided spatial mapping
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SubjectTerms	Animals Caenorhabditis elegans - metabolism Caenorhabditis elegans Proteins - metabolism Cysteine - metabolism Cytochrome P-450 Enzyme System - metabolism Humans Organ Specificity Stress, Physiological
Title	Organ-specific electrophile responsivity mapping in live C. elegans
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