The roles of muscle stem cells in muscle injury, atrophy and hypertrophy

Regulation and phylogeny of skeletal muscle regeneration

(2018) Meryem B. Baghdadi et al.   DEVELOPMENTAL BIOLOGY

Staufen1 inhibits MyoD translation to actively maintain muscle stem cell quiescence

(2017) Antoine de Morrée et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Control of muscle formation by the fusogenic micropeptide myomixer

(2017) Pengpeng Bi et al.   SCIENCE

Requirement of myomaker-mediated stem cell fusion for skeletal muscle hypertrophy

(2017) Qingnian Goh et al.   eLife

Notch ligands regulate the muscle stem-like state ex vivo but are not sufficient for retaining regenerative capacity

(2017) Hiroshi Sakai et al.   PLoS One

Intravital Imaging Reveals Ghost Fibers as Architectural Units Guiding Myogenic Progenitors during Regeneration

(2016) Micah T. Webster et al.   Cell Stem Cell

CD82 Is a Marker for Prospective Isolation of Human Muscle Satellite Cells and Is Linked to Muscular Dystrophies

(2016) Matthew S. Alexander et al.   Cell Stem Cell

Satellite cell depletion prevents fiber hypertrophy in skeletal muscle

(2016) Ingrid M. Egner et al.   DEVELOPMENT

An artificial niche preserves the quiescence of muscle stem cells and enhances their therapeutic efficacy

(2016) Marco Quarta et al.   NATURE BIOTECHNOLOGY

A developmentally regulated switch from stem cells to dedifferentiation for limb muscle regeneration in newts

(2016) Hibiki Vincent Tanaka et al.   Nature Communications

Myofiber-specific TEAD1 overexpression drives satellite cell hyperplasia and counters pathological effects of dystrophin deficiency

(2016) Sheryl Southard et al.   eLife

Cell-Surface Protein Profiling Identifies Distinctive Markers of Progenitor Cells in Human Skeletal Muscle

(2016) Akiyoshi Uezumi et al.   Stem Cell Reports

Impaired regenerative capacity and lower revertant fibre expansion in dystrophin-deficient mdx muscles on DBA/2 background

(2016) Merryl Rodrigues et al.   Scientific Reports

Effect of genetic background on the dystrophic phenotype inmdxmice

(2015) William D. Coley et al.   HUMAN MOLECULAR GENETICS

Muscle stem cells contribute to myofibres in sedentary adult mice

(2015) Alexandra C. Keefe et al.   Nature Communications

Calcitonin Receptor Signaling Inhibits Muscle Stem Cells from Escaping the Quiescent State and the Niche

(2015) Masahiko Yamaguchi et al.   Cell Reports

Doublecortin marks a new population of transiently amplifying muscle progenitor cells and is required for myofiber maturation during skeletal muscle regeneration

(2014) R. Ogawa et al.   DEVELOPMENT

Inducible depletion of satellite cells in adult, sedentary mice impairs muscle regenerative capacity without affecting sarcopenia

(2014) Christopher S Fry et al.   NATURE MEDICINE

Identification and characterization of PDGFRα+ mesenchymal progenitors in human skeletal muscle

(2014) A Uezumi et al.   Cell Death & Disease

Satellite cells in human skeletal muscle; from birth to old age

(2013) Lex B. Verdijk et al.   AGE

Muscle disuse atrophy is not accompanied by changes in skeletal muscle satellite cell content

(2013) Tim Snijders et al.   CLINICAL SCIENCE

Regulation of the muscle fiber microenvironment by activated satellite cells during hypertrophy

(2013) Christopher S. Fry et al.   FASEB JOURNAL

Myomaker is a membrane activator of myoblast fusion and muscle formation

(2013) Douglas P. Millay et al.   NATURE

Molecular regulation of stem cell quiescence

(2013) Tom H. Cheung et al.   NATURE REVIEWS MOLECULAR CELL BIOLOGY

Muscle Satellite Cells Are Primed for Myogenesis but Maintain Quiescence with Sequestration of Myf5 mRNA Targeted by microRNA-31 in mRNP Granules

(2012) Colin G. Crist et al.   Cell Stem Cell

Cell-autonomous Notch activity maintains the temporal specification potential of skeletal muscle stem cells

(2012) P. Mourikis et al.   DEVELOPMENT

Pax7-expressing satellite cells are indispensable for adult skeletal muscle regeneration

(2011) R. Sambasivan et al.   DEVELOPMENT

An absolute requirement for Pax7-positive satellite cells in acute injury-induced skeletal muscle regeneration

(2011) C. Lepper et al.   DEVELOPMENT

Hesr1 and Hesr3 are essential to generate undifferentiated quiescent satellite cells and to maintain satellite cell numbers

(2011) S.-i. Fukada et al.   DEVELOPMENT

Effective fiber hypertrophy in satellite cell-depleted skeletal muscle

(2011) J. J. McCarthy et al.   DEVELOPMENT

Fibrosis and adipogenesis originate from a common mesenchymal progenitor in skeletal muscle

(2011) A. Uezumi et al.   JOURNAL OF CELL SCIENCE

Sarcopenia Accelerates at Advanced Ages in Fisher 344xBrown Norway Rats

(2011) E. B. Lushaj et al.   JOURNALS OF GERONTOLOGY SERIES A-BIOLOGICAL SCIENCES AND MEDICAL SCIENCES

A Critical Requirement for Notch Signaling in Maintenance of the Quiescent Skeletal Muscle Stem Cell State

(2011) Philippos Mourikis et al.   STEM CELLS

Notch Signaling Is Necessary to Maintain Quiescence in Adult Muscle Stem Cells

(2011) Christopher R.R. Bjornson et al.   STEM CELLS

Genetic Background Affects Properties of Satellite Cells and mdx Phenotypes

(2010) So-ichiro Fukada et al.   AMERICAN JOURNAL OF PATHOLOGY

Are Human and Mouse Satellite Cells Really the Same?

(2010) Luisa Boldrin et al.   JOURNAL OF HISTOCHEMISTRY & CYTOCHEMISTRY

Fibrosis inhibition and muscle histopathology improvement in laminin-α2-deficient mice

(2010) Yoram Nevo et al.   MUSCLE & NERVE

Mesenchymal progenitors distinct from satellite cells contribute to ectopic fat cell formation in skeletal muscle

(2010) Akiyoshi Uezumi et al.   NATURE CELL BIOLOGY

Self-renewal and expansion of single transplanted muscle stem cells

(2008) Alessandra Sacco et al.   NATURE