WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism

White adipose tissue (WAT) is important for maintenance of homeostasis, because it stores energy and secretes adipokines. The WAT of obese people demonstrates mitochondrial dysfunction, accompanied by oxidative stress, which leads to insulin resistance. WW domain‐containing E3 ubiquitin protein liga...

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Autores principales: Hoshino, Shunsuke, Kobayashi, Masaki, Tagawa, Ryoma, Konno, Ryutaro, Abe, Takuro, Furuya, Kazuhiro, Miura, Kumi, Wakasawa, Hiroki, Okita, Naoyuki, Sudo, Yuka, Mizunoe, Yuhei, Nakagawa, Yoshimi, Nakamura, Takeshi, Kawabe, Hiroshi, Higami, Yoshikazu
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7050250/
https://www.ncbi.nlm.nih.gov/pubmed/31965758
http://dx.doi.org/10.1002/2211-5463.12795
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author Hoshino, Shunsuke
Kobayashi, Masaki
Tagawa, Ryoma
Konno, Ryutaro
Abe, Takuro
Furuya, Kazuhiro
Miura, Kumi
Wakasawa, Hiroki
Okita, Naoyuki
Sudo, Yuka
Mizunoe, Yuhei
Nakagawa, Yoshimi
Nakamura, Takeshi
Kawabe, Hiroshi
Higami, Yoshikazu
author_facet Hoshino, Shunsuke
Kobayashi, Masaki
Tagawa, Ryoma
Konno, Ryutaro
Abe, Takuro
Furuya, Kazuhiro
Miura, Kumi
Wakasawa, Hiroki
Okita, Naoyuki
Sudo, Yuka
Mizunoe, Yuhei
Nakagawa, Yoshimi
Nakamura, Takeshi
Kawabe, Hiroshi
Higami, Yoshikazu
author_sort Hoshino, Shunsuke
collection PubMed
description White adipose tissue (WAT) is important for maintenance of homeostasis, because it stores energy and secretes adipokines. The WAT of obese people demonstrates mitochondrial dysfunction, accompanied by oxidative stress, which leads to insulin resistance. WW domain‐containing E3 ubiquitin protein ligase 1 (WWP1) is a member of the HECT‐type E3 family of ubiquitin ligases and is associated with several diseases. Recently, we demonstrated that WWP1 is induced specifically in the WAT of obese mice, where it protects against oxidative stress. Here, we investigated the function of WWP1 in WAT of obese mice by analyzing the phenotype of Wwp1 knockout (KO) mice fed a high‐fat diet. The levels of oxidative stress markers were higher in obese WAT from Wwp1 KO mice. Moreover, Wwp1 KO mice had lower activity of citrate synthase, a mitochondrial enzyme. We also measured AKT phosphorylation in obese WAT and found lower levels in Wwp1 KO mice. However, plasma insulin level was low and glucose level was unchanged in obese Wwp1 KO mice. Moreover, both glucose tolerance test and insulin tolerance test were improved in obese Wwp1 KO mice. These findings indicate that WWP1 participates in the antioxidative response and mitochondrial function in WAT, but knockdown of WWP1 improves whole‐body glucose metabolism.
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spelling pubmed-70502502020-03-05 WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism Hoshino, Shunsuke Kobayashi, Masaki Tagawa, Ryoma Konno, Ryutaro Abe, Takuro Furuya, Kazuhiro Miura, Kumi Wakasawa, Hiroki Okita, Naoyuki Sudo, Yuka Mizunoe, Yuhei Nakagawa, Yoshimi Nakamura, Takeshi Kawabe, Hiroshi Higami, Yoshikazu FEBS Open Bio Research Articles White adipose tissue (WAT) is important for maintenance of homeostasis, because it stores energy and secretes adipokines. The WAT of obese people demonstrates mitochondrial dysfunction, accompanied by oxidative stress, which leads to insulin resistance. WW domain‐containing E3 ubiquitin protein ligase 1 (WWP1) is a member of the HECT‐type E3 family of ubiquitin ligases and is associated with several diseases. Recently, we demonstrated that WWP1 is induced specifically in the WAT of obese mice, where it protects against oxidative stress. Here, we investigated the function of WWP1 in WAT of obese mice by analyzing the phenotype of Wwp1 knockout (KO) mice fed a high‐fat diet. The levels of oxidative stress markers were higher in obese WAT from Wwp1 KO mice. Moreover, Wwp1 KO mice had lower activity of citrate synthase, a mitochondrial enzyme. We also measured AKT phosphorylation in obese WAT and found lower levels in Wwp1 KO mice. However, plasma insulin level was low and glucose level was unchanged in obese Wwp1 KO mice. Moreover, both glucose tolerance test and insulin tolerance test were improved in obese Wwp1 KO mice. These findings indicate that WWP1 participates in the antioxidative response and mitochondrial function in WAT, but knockdown of WWP1 improves whole‐body glucose metabolism. John Wiley and Sons Inc. 2020-02-03 /pmc/articles/PMC7050250/ /pubmed/31965758 http://dx.doi.org/10.1002/2211-5463.12795 Text en © 2020 The Authors. Published by FEBS Press and John Wiley & Sons Ltd. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Hoshino, Shunsuke
Kobayashi, Masaki
Tagawa, Ryoma
Konno, Ryutaro
Abe, Takuro
Furuya, Kazuhiro
Miura, Kumi
Wakasawa, Hiroki
Okita, Naoyuki
Sudo, Yuka
Mizunoe, Yuhei
Nakagawa, Yoshimi
Nakamura, Takeshi
Kawabe, Hiroshi
Higami, Yoshikazu
WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism
title WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism
title_full WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism
title_fullStr WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism
title_full_unstemmed WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism
title_short WWP1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism
title_sort wwp1 knockout in mice exacerbates obesity‐related phenotypes in white adipose tissue but improves whole‐body glucose metabolism
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7050250/
https://www.ncbi.nlm.nih.gov/pubmed/31965758
http://dx.doi.org/10.1002/2211-5463.12795
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