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Transthyretin Maintains Muscle Homeostasis Through the Novel Shuttle Pathway of Thyroid Hormones During Myoblast Differentiation.


ABSTRACT: Skeletal muscle, the largest part of the total body mass, influences energy and protein metabolism as well as maintaining homeostasis. Herein, we demonstrate that during murine muscle satellite cell and myoblast differentiation, transthyretin (TTR) can exocytose via exosomes and enter cells as TTR- thyroxine (T4) complex, which consecutively induces the intracellular triiodothyronine (T3) level, followed by T3 secretion out of the cell through the exosomes. The decrease in T3 with the TTR level in 26-week-old mouse muscle, compared to that in 16-week-old muscle, suggests an association of TTR with old muscle. Subsequent studies, including microarray analysis, demonstrated that T3-regulated genes, such as FNDC5 (Fibronectin type III domain containing 5, irisin) and RXR? (Retinoid X receptor gamma), are influenced by TTR knockdown, implying that thyroid hormones and TTR coordinate with each other with respect to muscle growth and development. These results suggest that, in addition to utilizing T4, skeletal muscle also distributes generated T3 to other tissues and has a vital role in sensing the intracellular T4 level. Furthermore, the results of TTR function with T4 in differentiation will be highly useful in the strategic development of novel therapeutics related to muscle homeostasis and regeneration.

SUBMITTER: Lee EJ 

PROVIDER: S-EPMC6952784 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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Transthyretin Maintains Muscle Homeostasis Through the Novel Shuttle Pathway of Thyroid Hormones During Myoblast Differentiation.

Lee Eun Ju EJ   Shaikh Sibhghatulla S   Choi Dukhwan D   Ahmad Khurshid K   Baig Mohammad Hassan MH   Lim Jeong Ho JH   Lee Yong-Ho YH   Park Sang Joon SJ   Kim Yong-Woon YW   Park So-Young SY   Choi Inho I  

Cells 20191204 12


Skeletal muscle, the largest part of the total body mass, influences energy and protein metabolism as well as maintaining homeostasis. Herein, we demonstrate that during murine muscle satellite cell and myoblast differentiation, transthyretin (TTR) can exocytose via exosomes and enter cells as TTR- thyroxine (T<sub>4</sub>) complex, which consecutively induces the intracellular triiodothyronine (T<sub>3</sub>) level, followed by T<sub>3</sub> secretion out of the cell through the exosomes. The d  ...[more]

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