@article{ART002902388,
author={Lee Bonggi and An Hye Jin and Kim Dae Hyun and Lee Min-Kyeong and Jeong Hyeon Hak and Chung Ki Wung and 고영훈 and Seo Arnold Y. and Kim Il Yong and Seong Je Kyung and Yu Byung Pal and LEE, JAE-WON and Im Eunok and Lee In-Kyu and Lee Myung-Shik and Yamada Ken-ichi and 정해영},
title={SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice},
journal={Experimental and Molecular Medicine},
issn={1226-3613},
year={2022},
volume={54},
pages={1-11},
doi={10.1038/s12276-022-00888-9}
}

TY - JOUR
AU - Lee Bonggi
AU - An Hye Jin
AU - Kim Dae Hyun
AU - Lee Min-Kyeong
AU - Jeong Hyeon Hak
AU - Chung Ki Wung
AU - 고영훈
AU - Seo Arnold Y.
AU - Kim Il Yong
AU - Seong Je Kyung
AU - Yu Byung Pal
AU - LEE, JAE-WON
AU - Im Eunok
AU - Lee In-Kyu
AU - Lee Myung-Shik
AU - Yamada Ken-ichi
AU - 정해영
TI - SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice
T2 - Experimental and Molecular Medicine
JO - Experimental and Molecular Medicine
PY - 2022
VL - 54
IS - null
PB - 생화학분자생물학회
SP - 1
EP - 11
SN - 1226-3613
AB - The vitamin-C-synthesizing enzyme senescent marker protein 30 (SMP30) is a cold resistance gene in Drosophila, and vitamin C concentration increases in brown adipose tissue post-cold exposure. However, the roles of SMP30 in thermogenesis are unknown. Here, we tested the molecular mechanism of thermogenesis using wild-type (WT) and vitamin C-deficient SMP30-knockout (KO) mice. SMP30-KO mice gained more weight than WT mice without a change in food intake in response to short-term high-fat diet feeding. Indirect calorimetry and cold-challenge experiments indicated that energy expenditure is lower in SMP30-KO mice, which is associated with decreased thermogenesis in adipose tissues. Therefore, SMP30-KO mice do not lose weight during cold exposure, whereas WT mice lose weight markedly. Mechanistically, the levels of serum FGF21 were notably lower in SMP30-KO mice, and vitamin C supplementation in SMP30-KO mice recovered FGF21 expression and thermogenesis, with a marked reduction in body weight during cold exposure. Further experiments revealed that vitamin C activates PPARα to upregulate FGF21. Our findings demonstrate that SMP30-mediated synthesis of vitamin C activates the PPARα/FGF21 axis, contributing to the maintenance of thermogenesis in mice.
KW -
DO - 10.1038/s12276-022-00888-9
ER -

Lee Bonggi, An Hye Jin, Kim Dae Hyun, Lee Min-Kyeong, Jeong Hyeon Hak, Chung Ki Wung, 고영훈, Seo Arnold Y., Kim Il Yong, Seong Je Kyung, Yu Byung Pal, LEE, JAE-WON, Im Eunok, Lee In-Kyu, Lee Myung-Shik, Yamada Ken-ichi and 정해영. 2022, "SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice", Experimental and Molecular Medicine, vol.54, pp.1-11. Available from: doi:10.1038/s12276-022-00888-9

Lee Bonggi, An Hye Jin, Kim Dae Hyun, Lee Min-Kyeong, Jeong Hyeon Hak, Chung Ki Wung, 고영훈, Seo Arnold Y., Kim Il Yong, Seong Je Kyung, Yu Byung Pal, LEE, JAE-WON, Im Eunok, Lee In-Kyu, Lee Myung-Shik, Yamada Ken-ichi, 정해영 "SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice" Experimental and Molecular Medicine 54 pp.1-11 (2022) : 1.

Lee Bonggi, An Hye Jin, Kim Dae Hyun, Lee Min-Kyeong, Jeong Hyeon Hak, Chung Ki Wung, 고영훈, Seo Arnold Y., Kim Il Yong, Seong Je Kyung, Yu Byung Pal, LEE, JAE-WON, Im Eunok, Lee In-Kyu, Lee Myung-Shik, Yamada Ken-ichi, 정해영. SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice. 2022; 54 1-11. Available from: doi:10.1038/s12276-022-00888-9

Lee Bonggi, An Hye Jin, Kim Dae Hyun, Lee Min-Kyeong, Jeong Hyeon Hak, Chung Ki Wung, 고영훈, Seo Arnold Y., Kim Il Yong, Seong Je Kyung, Yu Byung Pal, LEE, JAE-WON, Im Eunok, Lee In-Kyu, Lee Myung-Shik, Yamada Ken-ichi and 정해영. "SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice" Experimental and Molecular Medicine 54(2022) : 1-11.doi: 10.1038/s12276-022-00888-9

Lee Bonggi; An Hye Jin; Kim Dae Hyun; Lee Min-Kyeong; Jeong Hyeon Hak; Chung Ki Wung; 고영훈; Seo Arnold Y.; Kim Il Yong; Seong Je Kyung; Yu Byung Pal; LEE, JAE-WON; Im Eunok; Lee In-Kyu; Lee Myung-Shik; Yamada Ken-ichi; 정해영. SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice. Experimental and Molecular Medicine, 54, 1-11. doi: 10.1038/s12276-022-00888-9

Lee Bonggi; An Hye Jin; Kim Dae Hyun; Lee Min-Kyeong; Jeong Hyeon Hak; Chung Ki Wung; 고영훈; Seo Arnold Y.; Kim Il Yong; Seong Je Kyung; Yu Byung Pal; LEE, JAE-WON; Im Eunok; Lee In-Kyu; Lee Myung-Shik; Yamada Ken-ichi; 정해영. SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice. Experimental and Molecular Medicine. 2022; 54 1-11. doi: 10.1038/s12276-022-00888-9

Lee Bonggi, An Hye Jin, Kim Dae Hyun, Lee Min-Kyeong, Jeong Hyeon Hak, Chung Ki Wung, 고영훈, Seo Arnold Y., Kim Il Yong, Seong Je Kyung, Yu Byung Pal, LEE, JAE-WON, Im Eunok, Lee In-Kyu, Lee Myung-Shik, Yamada Ken-ichi, 정해영. SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice. 2022; 54 1-11. Available from: doi:10.1038/s12276-022-00888-9

Lee Bonggi, An Hye Jin, Kim Dae Hyun, Lee Min-Kyeong, Jeong Hyeon Hak, Chung Ki Wung, 고영훈, Seo Arnold Y., Kim Il Yong, Seong Je Kyung, Yu Byung Pal, LEE, JAE-WON, Im Eunok, Lee In-Kyu, Lee Myung-Shik, Yamada Ken-ichi and 정해영. "SMP30-mediated synthesis of vitamin C activates the liver PPARα/FGF21 axis to regulate thermogenesis in mice" Experimental and Molecular Medicine 54(2022) : 1-11.doi: 10.1038/s12276-022-00888-9