N-myristoylation regulates insulin-induced phosphorylation and ubiquitination of Caveolin-2 for insulin signaling

N-myristoylation is a ubiquitous protein lipidation in eukaryotes, but regulatory roles for myristoylation on proteins still remain to be explored. Here, we show that N-myristoylation of Caveolin-2 (Cav-2) controls insulin signaling. Alternative translation initiation (ATI)-yielded truncated form of...

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Published in:Biochemical and biophysical research communications 2020-11, Vol.532 (4), p.535-540
Main Authors: Kwon, Hayeong, Choi, Moonjeong, Ahn, Yujin, Pak, Yunbae
Format: Article
Language:English
Subjects:
Animals
Caveolin 2 - chemistry
Caveolin 2 - metabolism
Caveolin-2
Cell Line
Humans
Insulin - physiology
Insulin receptor
Lipoylation
Membrane Microdomains - metabolism
Myristic Acid - metabolism
N-myristoylation
Phosphorylation
Protein-tyrosine phosphatase 1B
Rats
Receptor, Insulin - metabolism
Signal Transduction
Tyrosine - metabolism
Ubiquitination
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container_title Biochemical and biophysical research communications
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creator Kwon, Hayeong
Choi, Moonjeong
Ahn, Yujin
Pak, Yunbae
description N-myristoylation is a ubiquitous protein lipidation in eukaryotes, but regulatory roles for myristoylation on proteins still remain to be explored. Here, we show that N-myristoylation of Caveolin-2 (Cav-2) controls insulin signaling. Alternative translation initiation (ATI)-yielded truncated form of non-N-myristoylable Cav-2β and various conditional Cav-2 mutants were compared to full-length form of N-myristoylable Cav-2α. Insulin induced insulin receptor (IR) tyrosine kinase-catalyzed Tyr-19 phosphorylation of N-myristoylable M14A Cav-2 and triggered activation of IR signaling cascade. In contrast, insulin induced ubiquitination of non-N-myristoylable M1A and G2A Cav-2 to facilitate protein-tyrosine phosphatase 1B interaction with IR which desensitized IR signaling through internalization. Metabolic labeling and click chemistry showed palmitoylation of M14A but not M1A and G2A Cav-2. Insulin did not induce phosphorylation of M1A and G2A Cav-2 and Cav-2β. Like Cav-2α, G2A Cav-2 and Cav-2β formed large homo-oligomers localized in lipid rafts. These findings show Cav-2 N-myristoylation plays a crucial role to coordinate its phosphorylation, palmitoylation, and ubiquitination to control insulin signaling. •N-myristoylation (MYR) of Cav-2 controls insulin receptor (IR) signaling.•MYR is required for phosphorylation of Cav-2 by IR to activate insulin signaling.•MYR-dependent palmitoylation facilitates the Cav-2 phosphorylation.•MYR prevents ubiquitination and internalization of Cav-2 to block IR desensitization.•MYR is dispensable for Cav-2 oligomerization and localization in lipid rafts.
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These findings show Cav-2 N-myristoylation plays a crucial role to coordinate its phosphorylation, palmitoylation, and ubiquitination to control insulin signaling. •N-myristoylation (MYR) of Cav-2 controls insulin receptor (IR) signaling.•MYR is required for phosphorylation of Cav-2 by IR to activate insulin signaling.•MYR-dependent palmitoylation facilitates the Cav-2 phosphorylation.•MYR prevents ubiquitination and internalization of Cav-2 to block IR desensitization.•MYR is dispensable for Cav-2 oligomerization and localization in lipid rafts.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>32896381</pmid><doi>10.1016/j.bbrc.2020.08.072</doi><tpages>6</tpages><orcidid>https://orcid.org/0000-0002-8594-5673</orcidid></addata></record>
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ispartof Biochemical and biophysical research communications, 2020-11, Vol.532 (4), p.535-540
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subjects Animals
Caveolin 2 - chemistry
Caveolin 2 - metabolism
Caveolin-2
Cell Line
Humans
Insulin - physiology
Insulin receptor
Lipoylation
Membrane Microdomains - metabolism
Myristic Acid - metabolism
N-myristoylation
Phosphorylation
Protein-tyrosine phosphatase 1B
Rats
Receptor, Insulin - metabolism
Signal Transduction
Tyrosine - metabolism
Ubiquitination
title N-myristoylation regulates insulin-induced phosphorylation and ubiquitination of Caveolin-2 for insulin signaling
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