Phosphorylation of an RNA-Binding Protein Rck/Me31b by Hippo Is Essential for Adipose Tissue Aging

Eunbyul Yeom; Hyejin Mun; Jinhwan Lim; Yoo Lim Chun; Kyung Won Min; Johana Lambert; L. Ashley Cowart; Jason S. Pierce; Besim Ogretmen; Jung Hyun Cho; Jeong Ho Chang; J. Ross Buchan; Jason Pitt; Matt Kaeberlein; Sung Ung Kang; Eun Soo Kwon; Seungbeom Ko; Kyoung Min Choi; Yong Sun Lee; Yoon Su Ha; Seung Jin Kim; Kwang Pyo Lee; Hyo Sung Kim; Seo Young Yang; Chang Hoon Shin; Je Hyun Yoon; Kyu Sun Lee

doi:10.1111/acel.70022

Phosphorylation of an RNA-Binding Protein Rck/Me31b by Hippo Is Essential for Adipose Tissue Aging

Eunbyul Yeom
, Hyejin Mun
, Jinhwan Lim
, Yoo Lim Chun
, Kyung Won Min
, Johana Lambert
, L. Ashley Cowart
, Jason S. Pierce
, Besim Ogretmen
, Jung Hyun Cho
, Jeong Ho Chang
, J. Ross Buchan
, Jason Pitt
, Matt Kaeberlein
, Sung Ung Kang
, Eun Soo Kwon
, Seungbeom Ko
, Kyoung Min Choi
, Yong Sun Lee
, Yoon Su Ha

Seung Jin Kim, Kwang Pyo Lee, Hyo Sung Kim, Seo Young Yang, Chang Hoon Shin, Je Hyun Yoon, Kyu Sun Lee

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

The metazoan lifespan is determined in part by a complex signaling network that regulates energy metabolism and stress responses. Key signaling hubs in this network include insulin/IGF-1, AMPK, mTOR, and sirtuins. The Hippo/Mammalian Ste20-like Kinase1 (MST1) pathway has been reported to maintain lifespan in Caenorhabditis elegans, but its role has not been studied in higher metazoans. In this study, we report that overexpression of Hpo, the MST1 homolog in Drosophila melanogaster, decreased lifespan with concomitant changes in lipid metabolism and aging-associated gene expression, while RNAi Hpo depletion increased lifespan. These effects were mediated primarily by Hpo-induced transcriptional activation of the RNA-binding protein maternal expression at 31B (Me31b)/RCK, resulting in stabilization of mRNA-encoding a lipolytic hormone, Akh. In mouse adipocytes, Hpo/Mst1 mediated adipocyte differentiation, phosphorylation of RNA-binding proteins such as Rck, decapping MRNA 2 (Dcp2), enhancer Of MRNA decapping 3 (Edc3), nucleolin (NCL), and glucagon mRNA stability by interacting with Rck. Decreased lifespan in Hpo-overexpressing Drosophila lines required expression of Me31b, but not DCP2, which was potentially mediated by recovering expression of lipid metabolic genes and formation of lipid droplets. Taken together, our findings suggest that Hpo/Mst1 plays a conserved role in longevity by regulating adipogenesis and fatty acid metabolism.

Original language	English (US)
Article number	e70022
Journal	Aging Cell
Volume	24
Issue number	6
DOIs	https://doi.org/10.1111/acel.70022
State	Published - Jun 2025
Externally published	Yes

Keywords

adipocyte
differentiation
fat body
hippo
lifespan
lipid metabolism
mRNA decay

ASJC Scopus subject areas

Aging
Cell Biology

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10.1111/acel.70022

Cite this

Yeom, E., Mun, H., Lim, J., Chun, Y. L., Min, K. W., Lambert, J., Cowart, L. A., Pierce, J. S., Ogretmen, B., Cho, J. H., Chang, J. H., Buchan, J. R., Pitt, J., Kaeberlein, M., Kang, S. U., Kwon, E. S., Ko, S., Choi, K. M., Lee, Y. S., ... Lee, K. S. (2025). Phosphorylation of an RNA-Binding Protein Rck/Me31b by Hippo Is Essential for Adipose Tissue Aging. Aging Cell, 24(6), Article e70022. https://doi.org/10.1111/acel.70022

Yeom, E, Mun, H, Lim, J, Chun, YL, Min, KW, Lambert, J, Cowart, LA, Pierce, JS, Ogretmen, B, Cho, JH, Chang, JH, Buchan, JR, Pitt, J, Kaeberlein, M, Kang, SU, Kwon, ES, Ko, S, Choi, KM, Lee, YS, Ha, YS, Kim, SJ, Lee, KP, Kim, HS, Yang, SY, Shin, CH, Yoon, JH & Lee, KS 2025, 'Phosphorylation of an RNA-Binding Protein Rck/Me31b by Hippo Is Essential for Adipose Tissue Aging', Aging Cell, vol. 24, no. 6, e70022. https://doi.org/10.1111/acel.70022

@article{7753687fe64c4c3e835bb9488b2a065f,

title = "Phosphorylation of an RNA-Binding Protein Rck/Me31b by Hippo Is Essential for Adipose Tissue Aging",

abstract = "The metazoan lifespan is determined in part by a complex signaling network that regulates energy metabolism and stress responses. Key signaling hubs in this network include insulin/IGF-1, AMPK, mTOR, and sirtuins. The Hippo/Mammalian Ste20-like Kinase1 (MST1) pathway has been reported to maintain lifespan in Caenorhabditis elegans, but its role has not been studied in higher metazoans. In this study, we report that overexpression of Hpo, the MST1 homolog in Drosophila melanogaster, decreased lifespan with concomitant changes in lipid metabolism and aging-associated gene expression, while RNAi Hpo depletion increased lifespan. These effects were mediated primarily by Hpo-induced transcriptional activation of the RNA-binding protein maternal expression at 31B (Me31b)/RCK, resulting in stabilization of mRNA-encoding a lipolytic hormone, Akh. In mouse adipocytes, Hpo/Mst1 mediated adipocyte differentiation, phosphorylation of RNA-binding proteins such as Rck, decapping MRNA 2 (Dcp2), enhancer Of MRNA decapping 3 (Edc3), nucleolin (NCL), and glucagon mRNA stability by interacting with Rck. Decreased lifespan in Hpo-overexpressing Drosophila lines required expression of Me31b, but not DCP2, which was potentially mediated by recovering expression of lipid metabolic genes and formation of lipid droplets. Taken together, our findings suggest that Hpo/Mst1 plays a conserved role in longevity by regulating adipogenesis and fatty acid metabolism.",

keywords = "adipocyte, differentiation, fat body, hippo, lifespan, lipid metabolism, mRNA decay",

author = "Eunbyul Yeom and Hyejin Mun and Jinhwan Lim and Chun, \{Yoo Lim\} and Min, \{Kyung Won\} and Johana Lambert and Cowart, \{L. Ashley\} and Pierce, \{Jason S.\} and Besim Ogretmen and Cho, \{Jung Hyun\} and Chang, \{Jeong Ho\} and Buchan, \{J. Ross\} and Jason Pitt and Matt Kaeberlein and Kang, \{Sung Ung\} and Kwon, \{Eun Soo\} and Seungbeom Ko and Choi, \{Kyoung Min\} and Lee, \{Yong Sun\} and Ha, \{Yoon Su\} and Kim, \{Seung Jin\} and Lee, \{Kwang Pyo\} and Kim, \{Hyo Sung\} and Yang, \{Seo Young\} and Shin, \{Chang Hoon\} and Yoon, \{Je Hyun\} and Lee, \{Kyu Sun\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Aging Cell published by Anatomical Society and John Wiley \& Sons Ltd.",

year = "2025",

month = jun,

doi = "10.1111/acel.70022",

language = "English (US)",

volume = "24",

journal = "Aging Cell",

issn = "1474-9718",

publisher = "Wiley-Blackwell Publishing Ltd",

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T1 - Phosphorylation of an RNA-Binding Protein Rck/Me31b by Hippo Is Essential for Adipose Tissue Aging

AU - Yeom, Eunbyul

AU - Mun, Hyejin

AU - Lim, Jinhwan

AU - Chun, Yoo Lim

AU - Min, Kyung Won

AU - Lambert, Johana

AU - Cowart, L. Ashley

AU - Pierce, Jason S.

AU - Ogretmen, Besim

AU - Cho, Jung Hyun

AU - Chang, Jeong Ho

AU - Buchan, J. Ross

AU - Pitt, Jason

AU - Kaeberlein, Matt

AU - Kang, Sung Ung

AU - Kwon, Eun Soo

AU - Ko, Seungbeom

AU - Choi, Kyoung Min

AU - Lee, Yong Sun

AU - Ha, Yoon Su

AU - Kim, Seung Jin

AU - Lee, Kwang Pyo

AU - Kim, Hyo Sung

AU - Yang, Seo Young

AU - Shin, Chang Hoon

AU - Yoon, Je Hyun

AU - Lee, Kyu Sun

PY - 2025/6

Y1 - 2025/6

N2 - The metazoan lifespan is determined in part by a complex signaling network that regulates energy metabolism and stress responses. Key signaling hubs in this network include insulin/IGF-1, AMPK, mTOR, and sirtuins. The Hippo/Mammalian Ste20-like Kinase1 (MST1) pathway has been reported to maintain lifespan in Caenorhabditis elegans, but its role has not been studied in higher metazoans. In this study, we report that overexpression of Hpo, the MST1 homolog in Drosophila melanogaster, decreased lifespan with concomitant changes in lipid metabolism and aging-associated gene expression, while RNAi Hpo depletion increased lifespan. These effects were mediated primarily by Hpo-induced transcriptional activation of the RNA-binding protein maternal expression at 31B (Me31b)/RCK, resulting in stabilization of mRNA-encoding a lipolytic hormone, Akh. In mouse adipocytes, Hpo/Mst1 mediated adipocyte differentiation, phosphorylation of RNA-binding proteins such as Rck, decapping MRNA 2 (Dcp2), enhancer Of MRNA decapping 3 (Edc3), nucleolin (NCL), and glucagon mRNA stability by interacting with Rck. Decreased lifespan in Hpo-overexpressing Drosophila lines required expression of Me31b, but not DCP2, which was potentially mediated by recovering expression of lipid metabolic genes and formation of lipid droplets. Taken together, our findings suggest that Hpo/Mst1 plays a conserved role in longevity by regulating adipogenesis and fatty acid metabolism.

AB - The metazoan lifespan is determined in part by a complex signaling network that regulates energy metabolism and stress responses. Key signaling hubs in this network include insulin/IGF-1, AMPK, mTOR, and sirtuins. The Hippo/Mammalian Ste20-like Kinase1 (MST1) pathway has been reported to maintain lifespan in Caenorhabditis elegans, but its role has not been studied in higher metazoans. In this study, we report that overexpression of Hpo, the MST1 homolog in Drosophila melanogaster, decreased lifespan with concomitant changes in lipid metabolism and aging-associated gene expression, while RNAi Hpo depletion increased lifespan. These effects were mediated primarily by Hpo-induced transcriptional activation of the RNA-binding protein maternal expression at 31B (Me31b)/RCK, resulting in stabilization of mRNA-encoding a lipolytic hormone, Akh. In mouse adipocytes, Hpo/Mst1 mediated adipocyte differentiation, phosphorylation of RNA-binding proteins such as Rck, decapping MRNA 2 (Dcp2), enhancer Of MRNA decapping 3 (Edc3), nucleolin (NCL), and glucagon mRNA stability by interacting with Rck. Decreased lifespan in Hpo-overexpressing Drosophila lines required expression of Me31b, but not DCP2, which was potentially mediated by recovering expression of lipid metabolic genes and formation of lipid droplets. Taken together, our findings suggest that Hpo/Mst1 plays a conserved role in longevity by regulating adipogenesis and fatty acid metabolism.

KW - adipocyte

KW - differentiation

KW - fat body

KW - hippo

KW - lifespan

KW - lipid metabolism

KW - mRNA decay

UR - https://www.scopus.com/pages/publications/105000236307

UR - https://www.scopus.com/pages/publications/105000236307#tab=citedBy

U2 - 10.1111/acel.70022

DO - 10.1111/acel.70022

M3 - Article

C2 - 40070010

AN - SCOPUS:105000236307

SN - 1474-9718

VL - 24

JO - Aging Cell

JF - Aging Cell

IS - 6

M1 - e70022

ER -

Phosphorylation of an RNA-Binding Protein Rck/Me31b by Hippo Is Essential for Adipose Tissue Aging

Abstract

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