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Literature DB >> 22833472

Satellite cells are essential for skeletal muscle regeneration: the cell on the edge returns centre stage.

Abstract

Following their discovery in 1961, it was speculated that satellite cells were dormant myoblasts, held in reserve until required for skeletal muscle repair. Evidence for this accumulated over the years, until the link between satellite cells and the myoblasts that appear during muscle regeneration was finally established. Subsequently, it was demonstrated that, when grafted, satellite cells could also self-renew, conferring on them the coveted status of 'stem cell'. The emergence of other cell types with myogenic potential, however, questioned the precise role of satellite cells. Here, we review recent recombination-based studies that have furthered our understanding of satellite cell biology. The clear consensus is that skeletal muscle does not regenerate without satellite cells, confirming their pivotal and non-redundant role.

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Year: 2012 PMID： 22833472 DOI： 10.1242/dev.069088

Source DB: PubMed Journal: Development ISSN： 0950-1991 Impact factor: 6.868

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Cited

307 in total

1. Detection of satellite cells during skeletal muscle wound healing in rats: time-dependent expressions of Pax7 and MyoD in relation to wound age.

Authors: Zhi-Ling Tian; Shu-Kun Jiang; Miao Zhang; Meng Wang; Jiao-Yong Li; Rui Zhao; Lin-Lin Wang; Shan-Shan Li; Min Liu; Meng-Zhou Zhang; Da-Wei Guan
Journal: Int J Legal Med Date: 2015-08-27 Impact factor: 2.686

Review 2. Skeletal Muscle Loading Changes its Regenerative Capacity.

Authors: Eduardo Teixeira; José Alberto Duarte
Journal: Sports Med Date: 2016-06 Impact factor: 11.136

Review 3. Fat deposition and accumulation in the damaged and inflamed skeletal muscle: cellular and molecular players.

Authors: Clara Sciorati; Emilio Clementi; Angelo A Manfredi; Patrizia Rovere-Querini
Journal: Cell Mol Life Sci Date: 2015-02-18 Impact factor: 9.261

4. Human satellite cells have regenerative capacity and are genetically manipulable.

Authors: Andreas Marg; Helena Escobar; Sina Gloy; Markus Kufeld; Joseph Zacher; Andreas Spuler; Carmen Birchmeier; Zsuzsanna Izsvák; Simone Spuler
Journal: J Clin Invest Date: 2014-08-26 Impact factor: 14.808

Review 5. In vitro myoblast motility models: investigating migration dynamics for the study of skeletal muscle repair.

Authors: K P Goetsch; K H Myburgh; Carola U Niesler
Journal: J Muscle Res Cell Motil Date: 2013-10-23 Impact factor: 2.698

Review 6. Stem cells and heterotopic ossification: Lessons from animal models.

Authors: John B Lees-Shepard; David J Goldhamer
Journal: Bone Date: 2018-01-31 Impact factor: 4.398

7. Implantation of autologous adipose-derived cells reconstructs functional urethral sphincters in rabbit cryoinjured urethra.

Authors: Sudha Silwal Gautam; Tetsuya Imamura; Osamu Ishizuka; Zhang Lei; Takahiro Yamagishi; Hitoshi Yokoyama; Tomonori Minagawa; Teruyuki Ogawa; Yoshiki Kurizaki; Haruaki Kato; Osamu Nishizawa
Journal: Tissue Eng Part A Date: 2014-03-25 Impact factor: 3.845