Mature Adult Dystrophic Mouse Muscle Environment Does Not Impede Efficient Engrafted Satellite Cell Regeneration and Self-renewal

Overview

Journal Stem Cells

Publisher Oxford University Press

Specialties Cell Biology
Reproductive Medicine

Date 2009 Jul 4

PMID 19575422

Citations 24

Authors

Luisa Boldrin

Peter Steven Zammit

Francesco Muntoni

Jennifer Elizabeth Morgan

Affiliations

Soon will be listed here.

Abstract

Changes that occur in the skeletal muscle environment with the progress of muscular dystrophies may affect stem cell function and result in impaired muscle regeneration. It has previously been suggested that the success of stem cell transplantation could therefore be dependent both on the properties of the cell itself and on the host muscle environment. Here we engrafted young and mature adult mdx-nude mice, which are the genetic homolog of Duchenne muscular dystrophy, with a small number of satellite cells freshly isolated from young, normal donor mice. We found that the donor satellite cells contributed to muscle regeneration and self-renewal as efficiently within mature adult, as in young, dystrophic host muscle. Donor-derived satellite cells also contributed to robust regeneration after further injury, showing that they were functional despite the more advanced dystrophic muscle environment. These findings provide evidence that muscle tissue in a later stage of dystrophy may be effectively treated by stem cells.

Citing Articles

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Arpke R, Shams A, Collins B, Larson A, Lu N, Lowe D Skelet Muscle. 2021; 11(1):22.

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Irradiation dependent inflammatory response may enhance satellite cell engraftment.

Doreste B, Torelli S, Morgan J Sci Rep. 2020; 10(1):11119.

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Impaired Regeneration in Dystrophic Muscle-New Target for Therapy.

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Restoration of Functional Full-Length Dystrophin After Intramuscular Transplantation of Foamy Virus-Transduced Myoblasts.

Meng J, Sweeney N, Doreste B, Muntoni F, McClure M, Morgan J Hum Gene Ther. 2019; 31(3-4):241-252.

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