ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion

Tamar Eigler; Giulia Zarfati; Emmanuel Amzallag; Sansrity Sinha; Nadav Segev; Yishaia Zabary; Assaf Zaritsky; Avraham Shakked; Kfir-Baruch Umansky; Eyal D Schejter; Douglas P Millay; Eldad Tzahor; Ori Avinoam

doi:https://doi.org/10.1016/j.devcel.2021.11.022

ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion

Tamar Eigler, Giulia Zarfati, Emmanuel Amzallag, Sansrity Sinha, Nadav Segev, Yishaia Zabary, Assaf Zaritsky, Avraham Shakked, Kfir-Baruch Umansky, Eyal D Schejter, Douglas P Millay, Eldad Tzahor, Ori Avinoam

Weizmann Institute of Science, Ben-Gurion University of the Negev

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

Abstract

Myoblast fusion is essential for muscle development and regeneration. Yet, it remains poorly understood how mononucleated myoblasts fuse with preexisting fibers. We demonstrate that ERK1/2 inhibition (ERKi) induces robust differentiation and fusion of primary mouse myoblasts through a linear pathway involving RXR, ryanodine receptors, and calcium-dependent activation of CaMKII in nascent myotubes. CaMKII activation results in myotube growth via fusion with mononucleated myoblasts at a fusogenic synapse. Mechanistically, CaMKII interacts with and regulates MYMK and Rac1, and CaMKIIδ/γ knockout mice exhibit smaller regenerated myofibers following injury. In addition, the expression of a dominant negative CaMKII inhibits the formation of large multinucleated myotubes. Finally, we demonstrate the evolutionary conservation of the pathway in chicken myoblasts. We conclude that ERK1/2 represses a signaling cascade leading to CaMKII-mediated fusion of myoblasts to myotubes, providing an attractive target for the cultivated meat industry and regenerative medicine.

Original language	English
Pages (from-to)	3349-3363.e6
Journal	Developmental Cell
Volume	56
Issue number	24
DOIs	https://doi.org/10.1016/j.devcel.2021.11.022
State	Published - 20 Dec 2021

Keywords

CaMKII
ERK1/2
calcium
cultivated meat
muscle regeneration
myoblast fusion
myogenesis

All Science Journal Classification (ASJC) codes

General Biochemistry,Genetics and Molecular Biology
Molecular Biology
Cell Biology
Developmental Biology

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Eigler, T., Zarfati, G., Amzallag, E., Sinha, S., Segev, N., Zabary, Y., Zaritsky, A., Shakked, A., Umansky, K-B., Schejter, E. D., Millay, D. P., Tzahor, E., & Avinoam, O. (2021). ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion. Developmental Cell, 56(24), 3349-3363.e6. https://doi.org/10.1016/j.devcel.2021.11.022

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title = "ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion",

abstract = "Myoblast fusion is essential for muscle development and regeneration. Yet, it remains poorly understood how mononucleated myoblasts fuse with preexisting fibers. We demonstrate that ERK1/2 inhibition (ERKi) induces robust differentiation and fusion of primary mouse myoblasts through a linear pathway involving RXR, ryanodine receptors, and calcium-dependent activation of CaMKII in nascent myotubes. CaMKII activation results in myotube growth via fusion with mononucleated myoblasts at a fusogenic synapse. Mechanistically, CaMKII interacts with and regulates MYMK and Rac1, and CaMKIIδ/γ knockout mice exhibit smaller regenerated myofibers following injury. In addition, the expression of a dominant negative CaMKII inhibits the formation of large multinucleated myotubes. Finally, we demonstrate the evolutionary conservation of the pathway in chicken myoblasts. We conclude that ERK1/2 represses a signaling cascade leading to CaMKII-mediated fusion of myoblasts to myotubes, providing an attractive target for the cultivated meat industry and regenerative medicine.",

keywords = "CaMKII, ERK1/2, calcium, cultivated meat, muscle regeneration, myoblast fusion, myogenesis",

author = "Tamar Eigler and Giulia Zarfati and Emmanuel Amzallag and Sansrity Sinha and Nadav Segev and Yishaia Zabary and Assaf Zaritsky and Avraham Shakked and Kfir-Baruch Umansky and Schejter, {Eyal D} and Millay, {Douglas P} and Eldad Tzahor and Ori Avinoam",

note = "Publisher Copyright: {\textcopyright} 2021 The Author(s)",

year = "2021",

month = dec,

day = "20",

doi = "https://doi.org/10.1016/j.devcel.2021.11.022",

language = "الإنجليزيّة",

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pages = "3349--3363.e6",

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Eigler, T, Zarfati, G, Amzallag, E, Sinha, S, Segev, N, Zabary, Y, Zaritsky, A, Shakked, A, Umansky, K-B, Schejter, ED, Millay, DP, Tzahor, E & Avinoam, O 2021, 'ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion', Developmental Cell, vol. 56, no. 24, pp. 3349-3363.e6. https://doi.org/10.1016/j.devcel.2021.11.022

TY - JOUR

T1 - ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion

AU - Eigler, Tamar

AU - Zarfati, Giulia

AU - Amzallag, Emmanuel

AU - Sinha, Sansrity

AU - Segev, Nadav

AU - Zabary, Yishaia

AU - Zaritsky, Assaf

AU - Shakked, Avraham

AU - Umansky, Kfir-Baruch

AU - Schejter, Eyal D

AU - Millay, Douglas P

AU - Tzahor, Eldad

AU - Avinoam, Ori

PY - 2021/12/20

Y1 - 2021/12/20

N2 - Myoblast fusion is essential for muscle development and regeneration. Yet, it remains poorly understood how mononucleated myoblasts fuse with preexisting fibers. We demonstrate that ERK1/2 inhibition (ERKi) induces robust differentiation and fusion of primary mouse myoblasts through a linear pathway involving RXR, ryanodine receptors, and calcium-dependent activation of CaMKII in nascent myotubes. CaMKII activation results in myotube growth via fusion with mononucleated myoblasts at a fusogenic synapse. Mechanistically, CaMKII interacts with and regulates MYMK and Rac1, and CaMKIIδ/γ knockout mice exhibit smaller regenerated myofibers following injury. In addition, the expression of a dominant negative CaMKII inhibits the formation of large multinucleated myotubes. Finally, we demonstrate the evolutionary conservation of the pathway in chicken myoblasts. We conclude that ERK1/2 represses a signaling cascade leading to CaMKII-mediated fusion of myoblasts to myotubes, providing an attractive target for the cultivated meat industry and regenerative medicine.

AB - Myoblast fusion is essential for muscle development and regeneration. Yet, it remains poorly understood how mononucleated myoblasts fuse with preexisting fibers. We demonstrate that ERK1/2 inhibition (ERKi) induces robust differentiation and fusion of primary mouse myoblasts through a linear pathway involving RXR, ryanodine receptors, and calcium-dependent activation of CaMKII in nascent myotubes. CaMKII activation results in myotube growth via fusion with mononucleated myoblasts at a fusogenic synapse. Mechanistically, CaMKII interacts with and regulates MYMK and Rac1, and CaMKIIδ/γ knockout mice exhibit smaller regenerated myofibers following injury. In addition, the expression of a dominant negative CaMKII inhibits the formation of large multinucleated myotubes. Finally, we demonstrate the evolutionary conservation of the pathway in chicken myoblasts. We conclude that ERK1/2 represses a signaling cascade leading to CaMKII-mediated fusion of myoblasts to myotubes, providing an attractive target for the cultivated meat industry and regenerative medicine.

KW - CaMKII

KW - ERK1/2

KW - calcium

KW - cultivated meat

KW - muscle regeneration

KW - myoblast fusion

KW - myogenesis

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U2 - https://doi.org/10.1016/j.devcel.2021.11.022

DO - https://doi.org/10.1016/j.devcel.2021.11.022

M3 - مقالة

C2 - 34932950

SN - 1534-5807

VL - 56

SP - 3349-3363.e6

JO - Developmental Cell

JF - Developmental Cell

IS - 24

ER -

ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion

Abstract

Keywords

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