Fibroblast fusion to the muscle fiber regulates myotendinous junction formation

Wesal Yaseen; Ortal Kraft-Sheleg; Shelly Zaffryar-Eilot; Shay Melamed; Chengyi Sun; Douglas P. Millay; Peleg Hasson

doi:10.1038/s41467-021-24159-9

Fibroblast fusion to the muscle fiber regulates myotendinous junction formation

Wesal Yaseen, Ortal Kraft-Sheleg, Shelly Zaffryar-Eilot, Shay Melamed, Chengyi Sun, Douglas P. Millay, Peleg Hasson

Medicine

Technion - Israel Institute of Technology

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

Abstract

Vertebrate muscles and tendons are derived from distinct embryonic origins yet they must interact in order to facilitate muscle contraction and body movements. How robust muscle tendon junctions (MTJs) form to be able to withstand contraction forces is still not understood. Using techniques at a single cell resolution we reexamine the classical view of distinct identities for the tissues composing the musculoskeletal system. We identify fibroblasts that have switched on a myogenic program and demonstrate these dual identity cells fuse into the developing muscle fibers along the MTJs facilitating the introduction of fibroblast-specific transcripts into the elongating myofibers. We suggest this mechanism resulting in a hybrid muscle fiber, primarily along the fiber tips, enables a smooth transition from muscle fiber characteristics towards tendon features essential for forming robust MTJs. We propose that dual characteristics of junctional cells could be a common mechanism for generating stable interactions between tissues throughout the musculoskeletal system.

Original language	English
Article number	3852
Pages (from-to)	3852
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-021-24159-9
State	Published - 22 Jun 2021

Keywords

Animals
Cell Fusion
Cells, Cultured
Fibroblasts/cytology
Gene Expression
Immunohistochemistry/methods
In Situ Hybridization, Fluorescence/methods
Intercellular Junctions/metabolism
Mice, Inbred C57BL
Mice, Transgenic
Muscle Contraction/genetics
Muscle Development/genetics
Muscle Fibers, Skeletal/cytology
Musculoskeletal System/cytology
Myofibrils/metabolism
RNA-Seq/methods
Tendons/cytology

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10.1038/s41467-021-24159-9

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title = "Fibroblast fusion to the muscle fiber regulates myotendinous junction formation",

abstract = "Vertebrate muscles and tendons are derived from distinct embryonic origins yet they must interact in order to facilitate muscle contraction and body movements. How robust muscle tendon junctions (MTJs) form to be able to withstand contraction forces is still not understood. Using techniques at a single cell resolution we reexamine the classical view of distinct identities for the tissues composing the musculoskeletal system. We identify fibroblasts that have switched on a myogenic program and demonstrate these dual identity cells fuse into the developing muscle fibers along the MTJs facilitating the introduction of fibroblast-specific transcripts into the elongating myofibers. We suggest this mechanism resulting in a hybrid muscle fiber, primarily along the fiber tips, enables a smooth transition from muscle fiber characteristics towards tendon features essential for forming robust MTJs. We propose that dual characteristics of junctional cells could be a common mechanism for generating stable interactions between tissues throughout the musculoskeletal system.",

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author = "Wesal Yaseen and Ortal Kraft-Sheleg and Shelly Zaffryar-Eilot and Shay Melamed and Chengyi Sun and Millay, \{Douglas P.\} and Peleg Hasson",

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AU - Yaseen, Wesal

AU - Kraft-Sheleg, Ortal

AU - Zaffryar-Eilot, Shelly

AU - Melamed, Shay

AU - Sun, Chengyi

AU - Millay, Douglas P.

AU - Hasson, Peleg

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N2 - Vertebrate muscles and tendons are derived from distinct embryonic origins yet they must interact in order to facilitate muscle contraction and body movements. How robust muscle tendon junctions (MTJs) form to be able to withstand contraction forces is still not understood. Using techniques at a single cell resolution we reexamine the classical view of distinct identities for the tissues composing the musculoskeletal system. We identify fibroblasts that have switched on a myogenic program and demonstrate these dual identity cells fuse into the developing muscle fibers along the MTJs facilitating the introduction of fibroblast-specific transcripts into the elongating myofibers. We suggest this mechanism resulting in a hybrid muscle fiber, primarily along the fiber tips, enables a smooth transition from muscle fiber characteristics towards tendon features essential for forming robust MTJs. We propose that dual characteristics of junctional cells could be a common mechanism for generating stable interactions between tissues throughout the musculoskeletal system.

AB - Vertebrate muscles and tendons are derived from distinct embryonic origins yet they must interact in order to facilitate muscle contraction and body movements. How robust muscle tendon junctions (MTJs) form to be able to withstand contraction forces is still not understood. Using techniques at a single cell resolution we reexamine the classical view of distinct identities for the tissues composing the musculoskeletal system. We identify fibroblasts that have switched on a myogenic program and demonstrate these dual identity cells fuse into the developing muscle fibers along the MTJs facilitating the introduction of fibroblast-specific transcripts into the elongating myofibers. We suggest this mechanism resulting in a hybrid muscle fiber, primarily along the fiber tips, enables a smooth transition from muscle fiber characteristics towards tendon features essential for forming robust MTJs. We propose that dual characteristics of junctional cells could be a common mechanism for generating stable interactions between tissues throughout the musculoskeletal system.

KW - Animals

KW - Cell Fusion

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KW - Fibroblasts/cytology

KW - Gene Expression

KW - Immunohistochemistry/methods

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KW - Intercellular Junctions/metabolism

KW - Mice, Inbred C57BL

KW - Mice, Transgenic

KW - Muscle Contraction/genetics

KW - Muscle Development/genetics

KW - Muscle Fibers, Skeletal/cytology

KW - Musculoskeletal System/cytology

KW - Myofibrils/metabolism

KW - RNA-Seq/methods

KW - Tendons/cytology

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DO - 10.1038/s41467-021-24159-9

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SP - 3852

JO - Nature Communications

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Fibroblast fusion to the muscle fiber regulates myotendinous junction formation

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Keywords

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