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Epimuscular Fat in the Human Rotator Cuff Is a Novel Beige Depot
Author(s) -
Meyer Gretchen A.,
Gibbons Michael C.,
Sato Eugene,
Lane John G.,
Ward Samuel R.,
Engler Adam J.
Publication year - 2015
Publication title -
stem cells translational medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.781
H-Index - 71
eISSN - 2157-6580
pISSN - 2157-6564
DOI - 10.5966/sctm.2014-0287
Subject(s) - adipose tissue , rotator cuff , myogenesis , atrophy , tears , muscle atrophy , paracrine signalling , biology , medicine , skeletal muscle , endocrinology , anatomy , immunology , receptor
Chronic rotator cuff (RC) tears are a common and debilitating injury, characterized by dramatic expansion of adipose tissue, muscle atrophy, and limited functional recovery. The role of adipose expansion in RC pathology is unknown; however, given the identified paracrine/endocrine regulation by other adipose depots, it likely affects tissue function outside its boundaries. Therefore, we characterized the epimuscular (EM) fat depot of the human rotator cuff, defined its response to RC tears, and evaluated its influence on myogenesis in vitro. EM fat biopsies exhibited morphological and functional features of human beige fat compared with patient‐matched s.c. biopsies, which appeared whiter. The transcriptional profile of EM fat and isolated EM adipose‐derived stem cells (ASCs) shifted as a function of the tear state; EM fat from intact cuffs had significantly elevated expression of the genes associated with uncoupled respiration, and the EM fat from torn cuffs had increased expression of beige‐selective genes. EM ASC cocultures with human‐ and mouse‐derived myogenic cells exhibited increased levels of myogenesis compared with s.c. cultures. Increased fusion and decreased proliferation of myogenic cells, rather than changes to the ASCs, were found to underlie this effect. Taken together, these data suggest that EM fat in the human rotator cuff is a novel beige adipose depot influenced by cuff state with therapeutic potential for promoting myogenesis in neighboring musculature. Significance Rotator cuff tears affect millions of people in the U.S.; however, current interventions are hindered by persistent muscle degeneration. This study identifies the therapeutic potential for muscle recovery in the epimuscular fat in the rotator cuff, previously considered a negative feature of the pathology, and finds that this fat is beige, rather than white. This is important for two reasons. First, the stem cells that were isolated from this beige fat are more myogenic than those from white fat, which have been the focus of stem cell‐based therapies to date, suggesting epimuscular fat could be a better stem cell source to augment rotator cuff repair. Second, these beige stem cells promote myogenesis in neighboring cells in culture, suggesting the potential for this fat to be manipulated therapeutically to promote muscle recovery through secreted signals.

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