Biochemical characterization of G protein coupling to calcitonin gene–related peptide and adrenomedullin receptors using a native PAGE assay

Calcitonin gene-related peptide (CGRP), adrenomedullin (AM), and adrenomedullin 2/intermedin (AM2/IMD) have overlapping and unique functions in the nervous and circulatory systems including vasodilation, cardioprotection, and pain transmission. Their actions are mediated by the class B calcitonin-li...

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Published inThe Journal of biological chemistry Vol. 295; no. 28; pp. 9736 - 9751
Main Authors Roehrkasse, Amanda M., Warner, Margaret L., Booe, Jason M., Pioszak, Augen A.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 10.07.2020
American Society for Biochemistry and Molecular Biology
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Abstract Calcitonin gene-related peptide (CGRP), adrenomedullin (AM), and adrenomedullin 2/intermedin (AM2/IMD) have overlapping and unique functions in the nervous and circulatory systems including vasodilation, cardioprotection, and pain transmission. Their actions are mediated by the class B calcitonin-like G protein–coupled receptor (CLR), which heterodimerizes with three receptor activity–modifying proteins (RAMP1–3) that determine its peptide ligand selectivity. How the three agonists and RAMPs modulate CLR binding to transducer proteins remains poorly understood. Here, we biochemically characterized agonist-promoted G protein coupling to each CLR·RAMP complex. We adapted a native PAGE method to assess the formation and thermostabilities of detergent-solubilized fluorescent protein–tagged CLR·RAMP complexes expressed in mammalian cells. Addition of agonist and the purified Gs protein surrogate mini-Gs (mGs) yielded a mobility-shifted agonist·CLR·RAMP·mGs quaternary complex gel band that was sensitive to antagonists. Measuring the apparent affinities of the agonists for the mGs-coupled receptors and of mGs for the agonist-occupied receptors revealed that both ligand and RAMP control mGs coupling and defined how agonist engagement of the CLR extracellular and transmembrane domains affects transducer recruitment. Using mini-Gsq and -Gsi chimeras, we observed a coupling rank order of mGs > mGsq > mGsi for each receptor. Last, we demonstrated the physiological relevance of the native gel assays by showing that they can predict the cAMP-signaling potencies of AM and AM2/IMD chimeras. These results highlight the power of the native PAGE assay for membrane protein biochemistry and provide a biochemical foundation for understanding the molecular basis of shared and distinct signaling properties of CGRP, AM, and AM2/IMD.
AbstractList Calcitonin gene-related peptide (CGRP), adrenomedullin (AM), and adrenomedullin 2/intermedin (AM2/IMD) have overlapping and unique functions in the nervous and circulatory systems including vasodilation, cardioprotection, and pain transmission. Their actions are mediated by the class B calcitonin-like G protein–coupled receptor (CLR), which heterodimerizes with three receptor activity–modifying proteins (RAMP1–3) that determine its peptide ligand selectivity. How the three agonists and RAMPs modulate CLR binding to transducer proteins remains poorly understood. Here, we biochemically characterized agonist-promoted G protein coupling to each CLR·RAMP complex. We adapted a native PAGE method to assess the formation and thermostabilities of detergent-solubilized fluorescent protein–tagged CLR·RAMP complexes expressed in mammalian cells. Addition of agonist and the purified G s protein surrogate mini-G s (mG s ) yielded a mobility-shifted agonist·CLR·RAMP·mG s quaternary complex gel band that was sensitive to antagonists. Measuring the apparent affinities of the agonists for the mG s -coupled receptors and of mG s for the agonist-occupied receptors revealed that both ligand and RAMP control mG s coupling and defined how agonist engagement of the CLR extracellular and transmembrane domains affects transducer recruitment. Using mini-G sq and -G si chimeras, we observed a coupling rank order of mG s > mG sq > mG si for each receptor. Last, we demonstrated the physiological relevance of the native gel assays by showing that they can predict the cAMP-signaling potencies of AM and AM2/IMD chimeras. These results highlight the power of the native PAGE assay for membrane protein biochemistry and provide a biochemical foundation for understanding the molecular basis of shared and distinct signaling properties of CGRP, AM, and AM2/IMD.
Calcitonin gene-related peptide (CGRP), adrenomedullin (AM), and adrenomedullin 2/intermedin (AM2/IMD) have overlapping and unique functions in the nervous and circulatory systems including vasodilation, cardioprotection, and pain transmission. Their actions are mediated by the class B calcitonin-like G protein–coupled receptor (CLR), which heterodimerizes with three receptor activity–modifying proteins (RAMP1–3) that determine its peptide ligand selectivity. How the three agonists and RAMPs modulate CLR binding to transducer proteins remains poorly understood. Here, we biochemically characterized agonist-promoted G protein coupling to each CLR·RAMP complex. We adapted a native PAGE method to assess the formation and thermostabilities of detergent-solubilized fluorescent protein–tagged CLR·RAMP complexes expressed in mammalian cells. Addition of agonist and the purified Gs protein surrogate mini-Gs (mGs) yielded a mobility-shifted agonist·CLR·RAMP·mGs quaternary complex gel band that was sensitive to antagonists. Measuring the apparent affinities of the agonists for the mGs-coupled receptors and of mGs for the agonist-occupied receptors revealed that both ligand and RAMP control mGs coupling and defined how agonist engagement of the CLR extracellular and transmembrane domains affects transducer recruitment. Using mini-Gsq and -Gsi chimeras, we observed a coupling rank order of mGs > mGsq > mGsi for each receptor. Last, we demonstrated the physiological relevance of the native gel assays by showing that they can predict the cAMP-signaling potencies of AM and AM2/IMD chimeras. These results highlight the power of the native PAGE assay for membrane protein biochemistry and provide a biochemical foundation for understanding the molecular basis of shared and distinct signaling properties of CGRP, AM, and AM2/IMD.
Calcitonin gene-related peptide (CGRP), adrenomedullin (AM), and adrenomedullin 2/intermedin (AM2/IMD) have overlapping and unique functions in the nervous and circulatory systems including vasodilation, cardioprotection, and pain transmission. Their actions are mediated by the class B calcitonin-like G protein-coupled receptor (CLR), which heterodimerizes with three receptor activity-modifying proteins (RAMP1-3) that determine its peptide ligand selectivity. How the three agonists and RAMPs modulate CLR binding to transducer proteins remains poorly understood. Here, we biochemically characterized agonist-promoted G protein coupling to each CLR·RAMP complex. We adapted a native PAGE method to assess the formation and thermostabilities of detergent-solubilized fluorescent protein-tagged CLR·RAMP complexes expressed in mammalian cells. Addition of agonist and the purified G protein surrogate mini-G (mG ) yielded a mobility-shifted agonist·CLR·RAMP·mG quaternary complex gel band that was sensitive to antagonists. Measuring the apparent affinities of the agonists for the mG -coupled receptors and of mG for the agonist-occupied receptors revealed that both ligand and RAMP control mG coupling and defined how agonist engagement of the CLR extracellular and transmembrane domains affects transducer recruitment. Using mini-G and -G chimeras, we observed a coupling rank order of mG > mG > mG for each receptor. Last, we demonstrated the physiological relevance of the native gel assays by showing that they can predict the cAMP-signaling potencies of AM and AM2/IMD chimeras. These results highlight the power of the native PAGE assay for membrane protein biochemistry and provide a biochemical foundation for understanding the molecular basis of shared and distinct signaling properties of CGRP, AM, and AM2/IMD.
Author Pioszak, Augen A.
Warner, Margaret L.
Roehrkasse, Amanda M.
Booe, Jason M.
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Issue 28
Keywords in-gel fluorescence
thermostability
molecular pharmacology
G protein-coupled receptor (GPCR)
receptor structure/function
peptide hormone
mini-G
hormone receptor
hrCNE
G protein
Language English
License This is an open access article under the CC BY license.
2020 Roehrkasse et al.
Published under exclusive license by The American Society for Biochemistry and Molecular Biology, Inc.
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Edited by Henrik G. Dohlman
ORCID 0000-0002-0456-5709
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Snippet Calcitonin gene-related peptide (CGRP), adrenomedullin (AM), and adrenomedullin 2/intermedin (AM2/IMD) have overlapping and unique functions in the nervous and...
SourceID pubmedcentral
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SubjectTerms Animals
Calcitonin Gene-Related Peptide - chemistry
Calcitonin Gene-Related Peptide - genetics
Calcitonin Gene-Related Peptide - metabolism
Chlorocebus aethiops
COS Cells
Cyclic AMP - metabolism
G protein
G protein-coupled receptor (GPCR)
HEK293 Cells
hormone receptor
hrCNE
Humans
in-gel fluorescence
Methods and Resources
mini-G
molecular pharmacology
Native Polyacrylamide Gel Electrophoresis
peptide hormone
Protein Domains
receptor structure/function
Receptors, Adrenomedullin - chemistry
Receptors, Adrenomedullin - genetics
Receptors, Adrenomedullin - metabolism
Second Messenger Systems
thermostability
Title Biochemical characterization of G protein coupling to calcitonin gene–related peptide and adrenomedullin receptors using a native PAGE assay
URI https://dx.doi.org/10.1074/jbc.RA120.013854
https://www.ncbi.nlm.nih.gov/pubmed/32487746
https://search.proquest.com/docview/2409190516
https://pubmed.ncbi.nlm.nih.gov/PMC7363127
Volume 295
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