Non–fibro-adipogenic pericytes from human embryonic stem cells attenuate degeneration of the chronically injured mouse muscle
Gina M. Mosich, Regina Husman, Paras Shah, Abhinav Sharma, Kevin Rezzadeh, Temidayo Aderibigbe, Vivian J. Hu, Daniel J. McClintick, Genbin Wu, Jonathan D. Gatto, Haibin Xi, April D. Pyle, Bruno Péault, Frank A. Petrigliano, Ayelet Dar
Gina M. Mosich, Regina Husman, Paras Shah, Abhinav Sharma, Kevin Rezzadeh, Temidayo Aderibigbe, Vivian J. Hu, Daniel J. McClintick, Genbin Wu, Jonathan D. Gatto, Haibin Xi, April D. Pyle, Bruno Péault, Frank A. Petrigliano, Ayelet Dar
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Research Article Muscle biology Stem cells

Non–fibro-adipogenic pericytes from human embryonic stem cells attenuate degeneration of the chronically injured mouse muscle

Abstract

Massive tears of the rotator cuff (RC) are associated with chronic muscle degeneration due to fibrosis, fatty infiltration, and muscle atrophy. The microenvironment of diseased muscle often impairs efficient engraftment and regenerative activity of transplanted myogenic precursors. Accumulating myofibroblasts and fat cells disrupt the muscle stem cell niche and myogenic cell signaling and deposit excess disorganized connective tissue. Therefore, restoration of the damaged stromal niche with non–fibro-adipogenic cells is a prerequisite to successful repair of an injured RC. We generated from human embryonic stem cells (hES) a potentially novel subset of PDGFR-β+CD146+CD34–CD56– pericytes that lack expression of the fibro-adipogenic cell marker PDGFR-α. Accordingly, the PDGFR-β+PDGFR-α– phenotype typified non–fibro-adipogenic, non-myogenic, pericyte-like derivatives that maintained non–fibro-adipogenic properties when transplanted into chronically injured murine RCs. Although administered hES pericytes inhibited developing fibrosis at early and late stages of progressive muscle degeneration, transplanted PDGFR-β+PDGFR-α+ human muscle-derived fibro-adipogenic progenitors contributed to adipogenesis and greater fibrosis. Additionally, transplanted hES pericytes substantially attenuated muscle atrophy at all tested injection time points after injury. Coinciding with this observation, conditioned medium from cultured hES pericytes rescued atrophic myotubes in vitro. These findings imply that non–fibro-adipogenic hES pericytes recapitulate the myogenic stromal niche and may be used to improve cell-based treatments for chronic muscle disorders.

Authors

Gina M. Mosich, Regina Husman, Paras Shah, Abhinav Sharma, Kevin Rezzadeh, Temidayo Aderibigbe, Vivian J. Hu, Daniel J. McClintick, Genbin Wu, Jonathan D. Gatto, Haibin Xi, April D. Pyle, Bruno Péault, Frank A. Petrigliano, Ayelet Dar

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Figure 7

Transplanted LR-PCs but not FAPs attenuate RC muscle atrophy.

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Transplanted LR-PCs but not FAPs attenuate RC muscle atrophy. (A) TTDN i...
(A) TTDN injury induced severe muscle wasting and atrophy within 6 weeks. Myofibers with significantly decreased diameter are indicated by arrows. (B) Injection of CM-DiI+ LR-PC (red) resulted in minor regeneration of non-atrophied myofibers in proximity to the site of injection as indicated by centrally located DAPI+ nuclei (blue, arrows). (C) Injection of CM-DiI+ LR-PCs resulted in significant inhibition of myofiber atrophy of central nuclei–regenerating (blue, arrows) myofibers at 6 weeks after TTDN. (D) Injected CM-DiI+ FAPs were localized in interstitial spaces between healthy myofibers (E and F). CM-DiI+ FAPs in injured RC remained clustered (E) and did not migrate to regions of muscle atrophy (F) at 6 weeks after TTDN. (G) Cross section measurements of CNMs and peripheral nuclei myofibers (M) of sham- or TTDN-operated RC injected with CM-DiI+ LR-PC at the indicated time points. Matched injections of saline into TTDN-operated RC served as muscle atrophy reference. Data are expressed as mean ± SEM. n = 3–5 mice per group, *P < 0.05 compared with matched time saline-injected TTDN mice, #P < 0.05 compared with matched sham-operated mice, and §P < 0.05 between LR-PC– and matched FAP–injected TTDN mice (1-way ANOVA). Scale bars: 50 μm. (H) Frequency of central nuclei myofibers (CNMs) and transplanted PCs in tissue sections of injected RC. PC+, LR-PC engrafted regions in tissue sections of injected RC; PC, LR-PC non-engrafted regions in tissue sections of injected RC. n = 4 mice per group and 5 LR-PC–containing regions per RC section. Data are expressed as mean ± SEM. P < 0.05 between CNMs in PC+ regions and CNMs in matched PC regions (1-way ANOVA).