LIN28A enhances regenerative capacity of human somatic tissue stem cells via metabolic and mitochondrial reprogramming

被引：12

作者：

Pieknell, Kelvin ^{[1
,2
]}

Sulistio, Yanuar Alan ^{[2
]}

Wulansari, Noviana ^{[2
]}

Darsono, Wahyu Handoko Wibowo ^{[2
]}

Chang, Mi-Yoon ^{[2
]}

Ko, Ji-Yun ^{[3
]}

Chang, Jong Wook ^{[4
]}

Kim, Min-Jeong ^{[4
]}

Lee, Man Ryul ^{[5
]}

Lee, Sang A. ^{[5
]}

Lee, Hyunbeom ^{[6
]}

Lee, Gakyung ^{[6
]}

Jung, Byung Hwa ^{[6
,7
]}

Park, Hyunbum ^{[8
]}

Kim, Geun-ho ^{[8
]}

Kim, Doory ^{[8
]}

Cho, Gayoung ^{[9
]}

Kim, Chun-Hyung ^{[9
]}

Ly, Dat Da ^{[10
]}

Park, Kyu-Sang ^{[10
]}

Lee, Sang-Hun ^{[1
,2
,11
]}

机构：

[1] Hanyang Univ, Grad Sch Biomed Sci & Engn, Seoul, South Korea

[2] Hanyang Univ, Hanyang Biomed Res Inst, Seoul, South Korea

[3] Dongguk Univ, Res Inst Integrat Regenerat Biomed Engn, Goyang Si, South Korea

[4] Samsung Med Ctr, Stem Cell & Regenerat Med Inst, Seoul 06351, South Korea

[5] Soonchunhyang Univ, Soonchunhyang Inst Medibiosci SIMS, Cheonan 31151, Chungcheongnam, South Korea

[6] Korea Inst Sci & Technol, Mol Recognit Res Ctr, Seoul 02792, South Korea

[7] Korea Univ Sci & Technol, KIST Sch, Div Biomed Sci & Technol, Seoul 02792, South Korea

[8] Hanyang Univ, Dept Chem, Seoul 04763, South Korea

[9] Paean Biotechnol Inc, Seoul 04552, South Korea

[10] Yonsei Univ, Wonju Coll Med, Mitohormesis Res Ctr, 20 Ilsan Ro, Wonju 26426, Gangwon Do, South Korea

[11] Hanyang Univ, Coll Med, Dept Biochem & Mol Biol, Seoul, South Korea

来源：

CELL DEATH AND DIFFERENTIATION | 2022年 / 29卷 / 03期

基金：

新加坡国家研究基金会;

关键词：

CYTOCHROME-C RELEASE; PROTEIN-KINASE; ANTIOXIDANT ENZYMES; RESPIRATORY-CHAIN; GENE-EXPRESSION; GLYCOLYSIS; REGULATOR; HOMEOSTASIS; PROFILE; LIN-28;

D O I：

10.1038/s41418-021-00873-1

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Developing methods to improve the regenerative capacity of somatic stem cells (SSCs) is a major challenge in regenerative medicine. Here, we propose the forced expression of LIN28A as a method to modulate cellular metabolism, which in turn enhances self-renewal, differentiation capacities, and engraftment after transplantation of various human SSCs. Mechanistically, in undifferentiated/proliferating SSCs, LIN28A induced metabolic reprogramming from oxidative phosphorylation (OxPhos) to glycolysis by activating PDK1-mediated glycolysis-TCA/OxPhos uncoupling. Mitochondria were also reprogrammed into healthy/fused mitochondria with improved functional capacity. The reprogramming allows SSCs to undergo cell proliferation more extensively with low levels of oxidative and mitochondrial stress. When the PDK1-mediated uncoupling was untethered upon differentiation, LIN28A-SSCs differentiated more efficiently with an increase of OxPhos by utilizing the reprogrammed mitochondria. This study provides mechanistic and practical approaches of utilizing LIN28A and metabolic reprogramming in order to improve SSCs utility in regenerative medicine.

引用

页码：540 / 555

页数：16

共 36 条

[1] LIN28A enhances regenerative capacity of human somatic tissue stem cells via metabolic and mitochondrial reprogramming
Kelvin Pieknell
Yanuar Alan Sulistio
Noviana Wulansari
Wahyu Handoko Wibowo Darsono
Mi-Yoon Chang
Ji-Yun Ko
Jong Wook Chang
Min-Jeong Kim
Man Ryul Lee
Sang A. Lee
Hyunbeom Lee
Gakyung Lee
Byung Hwa Jung
Hyunbum Park
Geun-ho Kim
Doory Kim
Gayoung Cho
Chun-Hyung Kim
Dat Da Ly
Kyu-Sang Park
Sang-Hun Lee
Cell Death & Differentiation, 2022, 29 : 540 - 555
[2] Lin28a enhances in vitro osteoblastic differentiation of human periosteum-derived cells
Park, Jin-Ho
Park, Bong-Wook
Kang, Young-Hoon
Byun, Sung-Hoon
Hwang, Sun-Chul
Kim, Deok Ryong
Woo, Dong Kyun
Byun, June-Ho
CELL BIOCHEMISTRY AND FUNCTION, 2017, 35 (08) : 497 - 509
[3] Lin28a induced mitochondrial dysfunction in human granulosa cells via suppressing LARS2 expression
Chen, Jing
Liu, Weimin
CELLULAR SIGNALLING, 2023, 103
[4] LIN28A enhances the therapeutic potential of cultured neural stem cells in a Parkinson's disease model
Rhee, Yong-Hee
Kim, Tae-Ho
Jo, A. -Young
Chang, Mi-Yoon
Park, Chang-Hwan
Kim, Sang-Mi
Song, Jae-Jin
Oh, Sang-Min
Yi, Sang-Hoon
Kim, Hyeon Ho
You, Bo-Hyun
Nam, Jin-Wu
Lee, Sang-Hun
BRAIN, 2016, 139 : 2722 - 2739
[5] Metabolic Reprogramming of Cardiac Progenitor Cells by Lin28 Enhances Cardiac Repair Potential
Zaveri, Priya
Harlamova, Daria
Mohsin, Sadia
Houser, Steven R.
Khan, Mohsin
CIRCULATION, 2017, 136
[6] PDGF-AB AND AZACITIDINE INDUCED REPROGRAMMING OF SOMATIC CELLS INTO TISSUE REGENERATIVE MULTNOTENT STEM CELLS
Chandrakanthan, Vashe
Jair, Kwan
Oliver, Rema
Qiao, Qiao
Kang, Young C.
Zarzour, Peter
Beck, Dominik
Boelen, Lies
Unnikrihnan, Ashwin
Villanueva, Jeanette
Nunez, Andrea
Knezevic, Kathy
Palu, Cintia
Nasrallah, Rabab
Hardy, Philip
Grey, Shane
Whan, Renee
Walkley, Carl
Purton, Louise E.
Ward, Robyn
Wong, Jason
Hesson, Luke
Ittner, Lars
Walsh, William
Pimanda, John
EXPERIMENTAL HEMATOLOGY, 2015, 43 (09) : S89 - S89
[7] Genetic Analysis of the Role of the Reprogramming Gene LIN-28 in Human Embryonic Stem Cells
Darr, Henia
Benvenisty, Nissim
STEM CELLS, 2009, 27 (02) : 352 - 362
[8] MITOCHONDRIAL OXIDATION OF THE CARBOHYDRATE FUEL ROBUSTLY ENHANCES STEMNESS OF OLDER AND GERIATRIC HUMAN AND MOUSE INTESTINAL STEM CELLS VIA REPROGRAMMING CELLULAR METABOLIC PREFERENCE
Awwad, Aasem
Weber, Garrett
Eddy, Nerise
Ahmed, Syed
Murphy, Robert
Sundaresan, Sinju
GASTROENTEROLOGY, 2024, 166 (05) : S311 - S311
[9] Long noncoding RNA TUG1 facilitates osteogenic differentiation of periodontal ligament stem cells via interacting with Lin28A
He, Qin
Yang, Shuangyan
Gu, Xiuge
Li, Mengying
Wang, Chunling
Wei, Fulan
CELL DEATH & DISEASE, 2018, 9
[10] Long noncoding RNA TUG1 facilitates osteogenic differentiation of periodontal ligament stem cells via interacting with Lin28A
Qin He
Shuangyan Yang
Xiuge Gu
Mengying Li
Chunling Wang
Fulan Wei
Cell Death & Disease, 9

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