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Literature DB >> 26811207

Lin28 and let-7 in the Metabolic Physiology of Aging.

Elwin Tan Jun-Hao¹, Renuka Ravi Gupta¹, Ng Shyh-Chang².

Abstract

The Lin28/let-7 molecular switch has emerged as a central regulator of growth signaling pathways and metabolic enzymes. Initially discovered to regulate developmental timing in the nematode, the Lin28/let-7 pathway of RNA regulation has gained prominence for its role in mammalian stem cells, cancer cells, tissue development, and aging. By regulating RNAs, the pathway coordinates cellular growth and cellular metabolism to influence metabolic physiology. Here, we review this regulatory mechanism and its impact on cancers, which reactivate Lin28, cardiovascular diseases, which implicate let-7, human genome-wide association studies (GWAS) of growth, and metabolic diseases, which implicate the Lin28/let-7 pathway. We also highlight questions relating to Barker's Hypothesis and the potential actions of the Lin28/let-7 pathway on programming long-lasting epigenetic effects.

Entities: Disease Gene Species

Keywords: Lin28; cancer; cardiomyopathy; diabetes; let-7; metabolism

Mesh：

Substances：

Year: 2016 PMID： 26811207 DOI： 10.1016/j.tem.2015.12.006

Source DB: PubMed Journal: Trends Endocrinol Metab ISSN： 1043-2760 Impact factor: 12.015

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Cited

18 in total

1. Upregulating Lin28a Promotes Axon Regeneration in Adult Mice with Optic Nerve and Spinal Cord Injury.

Authors: Fatima M Nathan; Yosuke Ohtake; Shuo Wang; Xinpei Jiang; Armin Sami; Hua Guo; Feng-Quan Zhou; Shuxin Li
Journal: Mol Ther Date: 2020-04-15 Impact factor: 11.454

2. SIRT2 and glycolytic enzyme acetylation in pluripotent stem cells.

Authors: Tong Ming Liu; Ng Shyh-Chang
Journal: Nat Cell Biol Date: 2017-04-27 Impact factor: 28.824

3. RNA-binding protein Lin28 is associated with injured dentin-dental pulp complex in Sprague-Dawley rats.

Authors: Yan Liu; Ning Dong; Juedan Li; Lin Zhao; Liping Gao; Yurong Zhang; Jianping Ruan
Journal: Int J Clin Exp Pathol Date: 2018-09-01

4. Long Noncoding RNA H19 Contributes to Cholangiocyte Proliferation and Cholestatic Liver Fibrosis in Biliary Atresia.

Authors: Yongtao Xiao; Runping Liu; Xiaojiaoyang Li; Emily C Gurley; Phillip B Hylemon; Ying Lu; Huiping Zhou; Wei Cai
Journal: Hepatology Date: 2019-06-21 Impact factor: 17.425

Review 5. LIN28 Family in Testis: Control of Cell Renewal, Maturation, Fertility and Aging.

Authors: Dajana Krsnik; Tihana Marić; Floriana Bulić-Jakuš; Nino Sinčić; Ana Katušić Bojanac
Journal: Int J Mol Sci Date: 2022-06-29 Impact factor: 6.208

6. Decreased LIN28B in preeclampsia impairs human trophoblast differentiation and migration.

Authors: John Canfield; Sefa Arlier; Ezinne F Mong; John Lockhart; Jeffrey VanWye; Ozlem Guzeloglu-Kayisli; Frederick Schatz; Ronald R Magness; Charles J Lockwood; John C M Tsibris; Umit A Kayisli; Hana Totary-Jain
Journal: FASEB J Date: 2018-10-11 Impact factor: 5.191

10. Silencing Lin28 promotes apoptosis in colorectal cancer cells by upregulating let‑7c targeting of antiapoptotic BCL2L1.

Authors: Haogang Zhang; Yaguang Zong; Gongcai Qiu; Ruichun Jia; Xunzheng Xu; Fujing Wang; Dequan Wu
Journal: Mol Med Rep Date: 2018-01-25 Impact factor: 2.952