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The Origin Of Skeletal Muscle Stem Cells In The Embryo And The Adult.

P. Bailey, T. Holowacz, A. Lassar
Published 2001 · Biology, Medicine

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Skeletal muscle progenitors are specified during embryogenesis and in addition have recently been found to be generated from either mesenchymal or neural stem cells in the adult. We review recent progress in identifying the signals and transcription factors that control skeletal muscle formation during embryogenesis and in the adult.
This paper references
10.1016/0092-8674(92)90507-9
Targeted inactivation of the muscle regulatory gene Myf-5 results in abnormal rib development and perinatal death
T. Braun (1992)
10.1101/GAD.13.24.3171
From insect eye to vertebrate muscle: redeployment of a regulatory network.
F. Relaix (1999)
Newt myotubes @BULLET@BULLET reenter the cell cycle by phosphorylation of the retinoblastoma protein
Em Tanaka (1997)
10.1016/0092-8674(93)90110-C
Interaction of myogenic factors and the retinoblastoma protein mediates muscle cell commitment and differentiation
Wei Gu (1993)
Abate-Shen C: Msx1 @BULLET antagonizes the myogenic activity of Pax3 in migrating limb muscle precursors
Aj Bendall (1999)
10.1016/0092-8674(95)90398-4
Long-range sclerotome induction by sonic hedgehog: Direct role of the amino-terminal cleavage product and modulation by the cyclic AMP signaling pathway
C. Fan (1995)
10.1002/AJA.1002020102
Differential expression of myogenic regulatory genes and Msx‐1 during dedifferentiation and redifferentiation of regenerating amphibian limbs
H. G. Simon (1995)
10.1101/GAD.9.23.2911
Combinatorial signaling by Sonic hedgehog and Wnt family members induces myogenic bHLH gene expression in the somite.
A. Münsterberg (1995)
Sonic hedgehog is required for survival of both myogenic and chondrogenic somitic lineages.
M. Teillet (1998)
10.1016/S0070-2153(01)51007-8
A molecular clock involved in somite segmentation.
M. Maroto (2001)
10.1016/S0092-8674(00)80189-0
Redefining the Genetic Hierarchies Controlling Skeletal Myogenesis: Pax-3 and Myf-5 Act Upstream of MyoD
S. Tajbakhsh (1997)
Sonic hedgehog controls epaxial muscle determination through Myf5 activation.
A. Borycki (1999)
10.13039/501100000265
A BAC transgenic analysis of the Mrf4/Myf5 locus reveals interdigitated elements that control activation and maintenance of gene expression during muscle development.
J. Carvajal (2001)
A molecular mechanism enabling continuous embryonic muscle growth - a balance between proliferation and differentiation.
H. Amthor (1999)
The dermomyotome dorsomedial lip drives growth and morphogenesis of both the primary myotome and dermomyotome epithelium.
C. Ordahl (2001)
The sub-lip domain--a distinct pathway for myotome precursors that demonstrate rostral-caudal migration.
Y. Cinnamon (2001)
10.1101/GAD.13.24.3231
Synergistic regulation of vertebrate muscle development by Dach2, Eya2, and Six1, homologs of genes required for Drosophila eye formation.
T. Heanue (1999)
Localized BMP4 mediates dorsal / ventral patterning in early Xenopus embryos
JE Schmidt (1995)
10.1016/0092-8674(93)90621-V
MyoD or Myf-5 is required for the formation of skeletal muscle
M. Rudnicki (1993)
Characterization of the early development of specific hypaxial muscles from the ventrolateral myotome.
Y. Cinnamon (1999)
MyoD and Myf-5 differentially regulate the development of limb versus trunk skeletal muscle.
B. Kablar (1997)
10.1038/43919
Dystrophin expression in the mdx mouse restored by stem cell transplantation
E. Gussoni (1999)
10.1002/(SICI)1521-1878(199805)20:5<357::AID-BIES1>3.0.CO;2-L
Knowing chops from chuck: roasting myoD redundancy.
C. Ordahl (1998)
10.1016/S0092-8674(00)81291-X
Lateral and Axial Signals Involved in Avian Somite Patterning: A Role for BMP4
O. Pourquié (1996)
10.1038/360477A0
Expression of Hox-7.1 in myoblasts inhibits terminal differentiation and induces cell transformation
K. Song (1992)
Notch signaling inhibits muscle cell differentiation through a CBF1-independent pathway.
C. Shawber (1996)
10.1038/386717A0
Maintenance of somite borders in mice requires the Delta homologue Dll1
M. Angelis (1997)
10.1038/341303A0
Expression of two myogenic regulatory factors myogenin and MyoDl during mouse embryogenesis
D. Sassoon (1989)
10.1002/j.1460-2075.1991.tb08054.x
Pax‐3, a novel murine DNA binding protein expressed during early neurogenesis.
M. Goulding (1991)
Notch signalling acts in postmitotic avian myogenic cells to control MyoD activation.
E. Hirsinger (2001)
10.1016/S0960-9822(98)70251-9
The importance of timing differentiation during limb muscle development
H. Amthor (1998)
10.1016/S0092-8674(00)80190-7
Ectopic Pax-3 Activates MyoD and Myf-5 Expression in Embryonic Mesoderm and Neural Tissue
M. Maroto (1997)
The expression of Myf5 in the developing mouse embryo is controlled by discrete and dispersed enhancers specific for particular populations of skeletal muscle precursors.
D. Summerbell (2000)
10.1016/0925-4773(90)90132-6
The murine paired box gene, Pax7, is expressed specifically during the development of the nervous and muscular system
B. Jostes (1990)
10.1073/PNAS.90.15.7230
Reversal of muscle differentiation during urodele limb regeneration.
D. Lo (1993)
Sonic hedgehog is a survival factor for hypaxial muscles during mouse development.
M. Krueger (2001)
Notch signaling imposes two distinct blocks in the differentiation of C2C12 myoblasts.
D. Nofziger (1999)
10.1101/GAD.12.3.290
Regulation of dorsal somitic cell fates: BMPs and Noggin control the timing and pattern of myogenic regulator expression.
R. Reshef (1998)
The origin of skeletal muscle stem cells in the embryo and the adult
Msx1 antagonizes the myogenic activity of Pax3 in migrating limb muscle precursors.
A. Bendall (1999)
10.1016/0092-8674(92)90508-A
Inactivation of MyoD in mice leads to up-regulation of the myogenic HLH gene Myf-5 and results in apparently normal muscle development
M. Rudnicki (1992)
Differential activation of Myf 5 and MyoD by different Wnts in explants of mouse paraxial mesoderm and the later activation of myogenesis in the absence of Myf 5
S. Tajbakhsh (1998)
10.1083/JCB.136.1.155
Newt Myotubes Reenter the Cell Cycle by Phosphorylation of the Retinoblastoma Protein
E. Tanaka (1997)
10.1006/DBIO.1999.9569
Plasticity of retrovirus-labelled myotubes in the newt limb regeneration blastema.
A. Kumar (2000)
Pax3 functions in cell survival and in pax7 regulation.
A. Borycki (1999)
10.1016/S0955-0674(00)00159-9
Genes that control the development of migrating muscle precursor cells.
C. Birchmeier (2000)
Fine-scale transgenic mapping of the MyoD core enhancer: MyoD is regulated by distinct but overlapping mechanisms in myotomal and non-myotomal muscle lineages.
K. Kucharczuk (1999)
Wnt signaling from the dorsal neural tube is required for the formation of the medial dermomyotome.
M. Ikeya (1998)
Sonic Hedgehog induces proliferation of committed skeletal muscle cells in the chick limb.
D. Duprez (1998)
10.1083/JCB.147.4.869
Skeletal Myogenic Progenitors Originating from Embryonic Dorsal Aorta Coexpress Endothelial and Myogenic Markers and Contribute to Postnatal Muscle Growth and Regeneration
L. De Angelis (1999)
Notch1 is required for the coordinate segmentation of somites.
R. Conlon (1995)
Noggin acts downstream of Wnt and Sonic Hedgehog to antagonize BMP4 in avian somite patterning.
E. Hirsinger (1997)
10.1083/JCB.135.2.441
Skeletal muscle cells lacking the retinoblastoma protein display defects in muscle gene expression and accumulate in S and G2 phases of the cell cycle
B. Novitch (1996)
10.1006/DBIO.2000.0114
Myf-5 is transiently expressed in nonmuscle mesoderm and exhibits dynamic regional changes within the presegmented mesoderm and somites I-IV.
J. Kiefer (2001)
10.1101/GAD.10.10.1173
MyoD is required for myogenic stem cell function in adult skeletal muscle.
L. Megeney (1996)
10.1128/MCB.19.4.2853
Activated Notch Inhibits Myogenic Activity of the MADS-Box Transcription Factor Myocyte Enhancer Factor 2C
J. Wilson-Rawls (1999)
10.1006/DBIO.1995.1124
Localized BMP-4 mediates dorsal/ventral patterning in the early Xenopus embryo.
J. Schmidt (1995)
10.1006/DBIO.1995.1290
The regulation of MyoD gene expression: conserved elements mediate expression in embryonic axial muscle.
A. Asakura (1995)
10.1006/DBIO.2000.9682
MyoD(-/-) satellite cells in single-fiber culture are differentiation defective and MRF4 deficient.
D. Cornelison (2000)
10.1016/0092-8674(95)90033-0
MSX1 inhibits MyoD expression in fibroblast × 10T½ cell hybrids
P. Woloshin (1995)
10.1016/S0960-9822(99)80362-5
Thrombin regulates S-phase re-entry by cultured newt myotubes
E. Tanaka (1999)
10.1046/j.1524-475X.1998.60413.x
A target of thrombin activation promotes cell cycle re‐entry by urodele muscle cells
E. Tanaka (1998)
10.1006/DBIO.1999.9389
In vivo regulation of somite differentiation and proliferation by Sonic Hedgehog.
C. Marcelle (1999)
10.1016/S0960-9822(01)00234-2
Mammalian postmitotic nuclei reenter the cell cycle after serum stimulation in newt/mouse hybrid myotubes
C. Velloso (2001)
Activation of different myogenic pathways: myf-5 is induced by the neural tube and MyoD by the dorsal ectoderm in mouse paraxial mesoderm.
G. Cossu (1996)
The homeobox gene Msx1 is expressed in a subset of somites, and in muscle progenitor cells migrating into the forelimb.
D. Houzelstein (1999)
10.1038/79924
Skeletal myogenic potential of human and mouse neural stem cells
R. Galli (2000)
Modular long-range regulation of Myf5 reveals unexpected heterogeneity between skeletal muscles in the mouse embryo.
J. Hadchouel (2000)
Notch signalling is required for cyclic expression of the hairy-like gene HES1 in the presomitic mesoderm.
C. Jouve (2000)
10.1016/S0092-8674(00)00212-9
Dedifferentiation of Mammalian Myotubes Induced by msx1
S. Odelberg (2000)
Differential regulation of epaxial and hypaxial muscle development by paraxis.
J. Wilson-Rawls (1999)
Coordinate actions of BMPs, Wnts, Shh and noggin mediate patterning of the dorsal somite.
C. Marcelle (1997)
Differential induction of four msx homeobox genes during fin development and regeneration in zebrafish.
M. Akimenko (1995)
10.1006/DBIO.1999.9565
A new look at the origin, function, and "stem-cell" status of muscle satellite cells.
P. Seale (2000)
Mesodermal subdivision along the mediolateral axis in chicken controlled by different concentrations of BMP-4.
A. Tonegawa (1997)
A lineage tracing study that complements [7 @BULLET@BULLET ]. This paper also correlates Pax-3, MyoD and desmin expression patterns with phases of proliferation, commitment and differentiation
10.1006/DBIO.2000.9884
Oscillating expression of c-Hey2 in the presomitic mesoderm suggests that the segmentation clock may use combinatorial signaling through multiple interacting bHLH factors.
C. Leimeister (2000)
10.1006/DBIO.2000.9722
Roles for Fgf signaling during zebrafish fin regeneration.
K. Poss (2000)
10.1126/SCIENCE.279.5356.1528
Muscle regeneration by bone marrow-derived myogenic progenitors.
G. Ferrari (1998)
MSX1 inhibits myoD expression in fibroblast x 10T1/2 cell hybrids.
P. Woloshin (1995)
10.1007/s004290050237
Recruitment of bone-marrow-derived cells by skeletal and cardiac muscle in adult dystrophic mdx mice
R. Bittner (1999)
10.1038/383407A0
Cyclopia and defective axial patterning in mice lacking Sonic hedgehog gene function
C. Chiang (1996)
Differential activation of Myf5 and MyoD by different Wnts in explants of mouse paraxial mesoderm and the later activation of myogenesis in the absence of Myf5.
S. Tajbakhsh (1998)
Pax-3 is necessary for migration but not differentiation of limb muscle precursors in the mouse.
G. Daston (1996)
Delta 1-activated notch inhibits muscle differentiation without affecting Myf5 and Pax3 expression in chick limb myogenesis.
M. Delfini (2000)
On the origin and development of the ventrolateral abdominal muscles in the avian embryo. An experimental and ultrastructural study
B Christ (1983)
Digit tip regeneration correlates with regions of Msx1 (Hox 7) expression in fetal and newborn mice.
A. Reginelli (1995)
Pax 3 functions in cell survival and in pax 7 regulation
A. Borycki (1999)
10.1016/S0092-8674(00)00066-0
Pax7 Is Required for the Specification of Myogenic Satellite Cells
P. Seale (2000)
and recommended reading Papers of particular interest, published within the annual period of review, have been highlighted as: @BULLET of special interest @BULLET@BULLET of outstanding interest



This paper is referenced by
10.7150/jgen.3930
Developmental Programming of Fetal Skeletal Muscle and Adipose Tissue Development
X. Yan (2013)
10.1016/j.nut.2015.08.014
Birth weight, intrauterine growth restriction and nutritional status in childhood in relation to grip strength in adults: from the 1982 Pelotas (Brazil) birth cohort
R. Bielemann (2016)
10.1096/fj.04-3640fje
Differential gene expression profiling of short and long term denervated muscle
J. Batt (2006)
Human Muscle-Derived Stem Cells
Shing-Hwa Lu (2009)
10.4081/971
Involvement of cdks and cyclins in muscle differentiation
M. Falco (2006)
10.1242/dev.02365
Mesoderm progenitor cells of common origin contribute to the head musculature and the cardiac outflow tract
Libbat Tirosh-Finkel (2006)
10.1016/J.MODGEP.2005.08.004
Cloning and expression pattern of lbx3, a novel chick homeobox gene.
T. Kanamoto (2006)
10.1101/GAD.1383706
The Notch coactivator, MAML1, functions as a novel coactivator for MEF2C-mediated transcription and is required for normal myogenesis.
H. Shen (2006)
10.1073/pnas.112218599
Stage-specific modulation of skeletal myogenesis by inhibitors of nuclear deacetylases
S. Iezzi (2002)
10.9771/CMBIO.V2I2.4292
Células-tronco: uma breve revisão
Verônica Ferreira de Souza (2003)
10.1007/978-3-319-19207-9_30
Skeletal Muscle and Peripheral Nerves
Nicholas D Manton (2015)
10.1016/j.earlhumdev.2019.04.013
Exposure to parental smoking during pregnancy and handgrip strength in 7-10-year old children.
S. Kozieł (2019)
10.1016/B978-0-12-374729-7.00016-0
Amniotic Fluid-Derived Pluripotential Cells
A. Atala (2009)
10.1042/BJ20031723
Regulated expression and temporal induction of the tail-anchored sarcolemmal-membrane-associated protein is critical for myoblast fusion.
Rosa M Guzzo (2004)
10.1111/j.1464-410X.2009.08823.x
Multi‐potent differentiation of human purified muscle‐derived cells: potential for tissue regeneration
S. Lu (2010)
The effect of muscle dysfunction on bone mass and morphology.
T. Gross (2010)
Cellulose nanowhiskers for skeletal muscle engineering
Naa-Dei Nikoi (2017)
Congenital Bilateral Absence of the Flexor
Maita Kuvhenguhwa (2012)
10.1201/9780203500224-18
Artificial Organs and Stem Cell Biology
R. L. Smith (2004)
10.1074/JBC.M112141200
β-Catenin Is Essential and Sufficient for Skeletal Myogenesis in P19 Cells*
H. Petropoulos (2002)
Morphology of the lateral pterygoid muscle associated to the mandibular condyle in the human prenatal stage.
M. Carranza (2006)
10.1074/jbc.M116.719849
Serine/Threonine Kinase 40 (Stk40) Functions as a Novel Regulator of Skeletal Muscle Differentiation*
K. He (2016)
10.11606/T.11.2004.TDE-11012005-161916
Identificação e caracterização de seqüências expressas (EST) na musculatura peitoral de frangos de corte.
H. Alves (2004)
10.2527/jas.2012-5670
Meat Science and Muscle Biology Symposium: manipulating mesenchymal progenitor cell differentiation to optimize performance and carcass value of beef cattle.
M. Du (2013)
10.1210/EN.2004-0906
Intact insulin and insulin-like growth factor-I receptor signaling is required for growth hormone effects on skeletal muscle growth and function in vivo.
H. Kim (2005)
10.1111/j.1582-4934.2008.00427.x
Pax genes in embryogenesis and oncogenesis
Qiuyu Wang (2008)
Early Growth and Later Health, Focus on Metabolic Syndrome, Obesity and Physical Activity
Minna K. Salonen (2011)
Condición física en la adolescencia: (Physical fitness in adolescence)
F. B. O. Porcel (2008)
10.1007/s00429-006-0117-x
Myogenin (Myf4) upregulation in trans-differentiating fibroblasts from a congenital myopathy with arrest of myogenesis and defects of myotube formation
C. Weise (2006)
10.1016/J.YDBIO.2003.10.008
Calcineurin signaling and NFAT activation in cardiovascular and skeletal muscle development.
R. Schulz (2004)
10.1016/j.biochi.2019.04.003
The homeoprotein Msx1 cooperates with Pkn1 to prevent terminal differentiation in myogenic precursor cells.
Xiaoli Zhu (2019)
10.3390/ijms19072082
Overexpression of the Rybp Gene Inhibits Differentiation of Bovine Myoblasts into Myotubes
Xiaotong Su (2018)
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