| scholarly article | Q13442814 |
| P2093 | author name string | Kunihiro Tsuchida | |
| Akiyoshi Uezumi | |||
| Shin'ichi Takeda | |||
| Hiroshi Yamamoto | |||
| So-ichiro Fukada | |||
| Yuko Miyagoe-Suzuki | |||
| Kazutake Tsujikawa | |||
| Masahiko Yamaguchi | |||
| Ryo Ogawa | |||
| Takahito Ito | |||
| Daisuke Morikawa | |||
| Masashi Segawa | |||
| Miroslav M Matev | |||
| Natsuko Shimizu | |||
| Tomohiro Yoneda | |||
| P433 | issue | Pt 21 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | adipogenesis | Q2824461 |
| P304 | page(s) | 3654-3664 | |
| P577 | publication date | 2011-11-01 | |
| P1433 | published in | Journal of Cell Science | Q1524177 |
| P1476 | title | Fibrosis and adipogenesis originate from a common mesenchymal progenitor in skeletal muscle. | |
| P478 | volume | 124 |
| Q37637940 | "Mix of Mics"- Phenotypic and Biological Heterogeneity of "Multipotent" Muscle Interstitial Cells (MICs). |
| Q36301338 | A Disintegrin and Metalloprotease 10 (ADAM10) Is Indispensable for Maintenance of the Muscle Satellite Cell Pool |
| Q90283291 | A Muscle Stem Cell Support Group: Coordinated Cellular Responses in Muscle Regeneration |
| Q35150743 | A Wnt-TGFβ2 axis induces a fibrogenic program in muscle stem cells from dystrophic mice |
| Q52815123 | ACL injury reduces satellite cell abundance and promotes fibrogenic cell expansion within skeletal muscle. |
| Q36375659 | ALS skeletal muscle shows enhanced TGF-β signaling, fibrosis and induction of fibro/adipogenic progenitor markers |
| Q35693925 | Activation of non-myogenic mesenchymal stem cells during the disease progression in dystrophic dystrophin/utrophin knockout mice |
| Q48113130 | Activin-dependent signaling in fibro/adipogenic progenitors causes fibrodysplasia ossificans progressiva |
| Q37604291 | Adipocytes in skin health and disease |
| Q94550856 | Adipogenesis of skeletal muscle fibro/adipogenic progenitors is affected by the WNT5a/GSK3/β-catenin axis |
| Q35619414 | Adipose tissue plasticity from WAT to BAT and in between |
| Q27690744 | Adult stem cell and mesenchymal progenitor theories of aging |
| Q93047085 | Adult stem cells at work: regenerating skeletal muscle |
| Q90255264 | An Overview about the Biology of Skeletal Muscle Satellite Cells |
| Q34316322 | BAF60 A, B, and Cs of muscle determination and renewal |
| Q64060257 | Biomechanical Behaviour and Biocompatibility of Ureidopyrimidinone-Polycarbonate Electrospun and Polypropylene Meshes in a Hernia Repair in Rabbits |
| Q37037380 | Cardiac Fibro-Adipocyte Progenitors Express Desmosome Proteins and Preferentially Differentiate to Adipocytes Upon Deletion of the Desmoplakin Gene. |
| Q35883291 | Cardiac fibroblasts: from development to heart failure. |
| Q39265518 | Cardiac fibroblasts: more than mechanical support |
| Q37171530 | Cell-Surface Protein Profiling Identifies Distinctive Markers of Progenitor Cells in Human Skeletal Muscle |
| Q37361381 | Cellular dynamics in the muscle satellite cell niche. |
| Q37093579 | Cellular mechanisms of tissue fibrosis. 4. Structural and functional consequences of skeletal muscle fibrosis |
| Q100525978 | Cellular senescence-mediated exacerbation of Duchenne muscular dystrophy |
| Q36293284 | Characterization of adipocytes derived from fibro/adipogenic progenitors resident in human skeletal muscle |
| Q46673942 | Ciliary Hedgehog Signaling Restricts Injury-Induced Adipogenesis. |
| Q47104266 | Comparative Analysis of Muscle Hypertrophy Models Reveals Divergent Gene Transcription Profiles and Points to Translational Regulation of Muscle Growth through Increased mTOR Signaling. |
| Q37148808 | Comparative Genomics of X-linked Muscular Dystrophies: The Golden Retriever Model |
| Q40198410 | Comparative mass spectrometric and immunoassay-based proteome analysis in serum of Duchenne muscular dystrophy patients |
| Q44783314 | Connective tissue cells expressing fibro/adipogenic progenitor markers increase under chronic damage: relevance in fibroblast-myofibroblast differentiation and skeletal muscle fibrosis |
| Q42640875 | Contributions of muscle-resident progenitor cells to homeostasis and disease |
| Q37325205 | Coronary adventitial cells are linked to perivascular cardiac fibrosis via TGFβ1 signaling in the mdx mouse model of Duchenne muscular dystrophy |
| Q36369940 | Dynamic regulation of platelet-derived growth factor receptor α expression in alveolar fibroblasts during realveolarization |
| Q58756141 | Dynamics of cellular states of fibro-adipogenic progenitors during myogenesis and muscular dystrophy |
| Q38674278 | Effects of transforming growth factor-β1 treatment on muscle regeneration and adipogenesis in glycerol-injured muscle. |
| Q44531478 | Enhancement of adipogenesis and fibrogenesis in skeletal muscle of Wagyu compared with Angus cattle |
| Q38112733 | Epigenetic control of skeletal muscle regeneration: Integrating genetic determinants and environmental changes |
| Q44358707 | Ex vivo bupivacaine treatment results in increased adipogenesis of skeletal muscle cells in the rat. |
| Q92060214 | Excessive exosome release is the pathogenic pathway linking a lysosomal deficiency to generalized fibrosis |
| Q89723039 | Exercise enhances skeletal muscle regeneration by promoting senescence in fibro-adipogenic progenitors |
| Q37351645 | Expression profile and overexpression outcome indicate a role for βKlotho in skeletal muscle fibro/adipogenesis |
| Q52648781 | Expression profiling of disease progression in canine model of Duchenne muscular dystrophy. |
| Q90525500 | FAPs are sensors for skeletal myofibre atrophy |
| Q38411886 | Fat deposition and accumulation in the damaged and inflamed skeletal muscle: cellular and molecular players |
| Q42751172 | Fatty acid-binding protein 4 regulates fatty infiltration after rotator cuff tear by hypoxia-inducible factor 1 in mice |
| Q93186092 | Fibro-Adipogenic Progenitors Cross-Talk in Skeletal Muscle: The Social Network |
| Q58554975 | Fibro-Adipogenic Remodeling of the Diaphragm in Obesity-Associated Respiratory Dysfunction |
| Q93023182 | Fibro-adipogenic progenitors of dystrophic mice are insensitive to NOTCH regulation of adipogenesis |
| Q52899786 | Fibro/Adipogenic Progenitors (FAPs): Isolation by FACS and Culture. |
| Q42314687 | Fibro/adipogenic progenitors safeguard themselves: a novel mechanism to reduce fibrosis is discovered |
| Q36771323 | Fibroadipogenic progenitors mediate the ability of HDAC inhibitors to promote regeneration in dystrophic muscles of young, but not old Mdx mice |
| Q42028126 | Fibrogenic Cell Plasticity Blunts Tissue Regeneration and Aggravates Muscular Dystrophy |
| Q36193644 | Fibrosis, adipogenesis, and muscle atrophy in congenital muscular torticollis |
| Q92460557 | Follistatin-based ligand trap ACE-083 induces localized hypertrophy of skeletal muscle with functional improvement in models of neuromuscular disease |
| Q92381497 | Functional regeneration of tissue engineered skeletal muscle in vitro is dependent on the inclusion of basement membrane proteins |
| Q57214987 | Genetic, management, and nutritional factors affecting intramuscular fat deposition in beef cattle - A review |
| Q64117512 | Genome wide association and gene enrichment analysis reveal membrane anchoring and structural proteins associated with meat quality in beef |
| Q34970578 | Genomic profiling reveals that transient adipogenic activation is a hallmark of mouse models of skeletal muscle regeneration |
| Q38702724 | Glucocorticoids Retain Bipotent Fibroblast Progenitors during Alveolar Septation in Mice. |
| Q34072671 | Glucocorticoids increase adipocytes in muscle by affecting IL-4 regulated FAP activity |
| Q57047773 | Glycerol induces early fibrosis in regenerating rat skeletal muscle |
| Q37729762 | HDAC-regulated myomiRs control BAF60 variant exchange and direct the functional phenotype of fibro-adipogenic progenitors in dystrophic muscles. |
| Q55512115 | HMGB2 is a novel adipogenic factor that regulates ectopic fat infiltration in skeletal muscles. |
| Q93120633 | Heterogeneity of Adult Cardiac Stem Cells |
| Q37590967 | Heterotopic ossification after the use of recombinant human bone morphogenetic protein-7. |
| Q44489207 | High resolution three-dimensional reconstruction of fibrotic skeletal muscle extracellular matrix. |
| Q38272315 | Histone deacetylase inhibitors: a potential epigenetic treatment for Duchenne muscular dystrophy. |
| Q38505831 | INVITED REVIEW: Evolution of meat animal growth research during the past 50 years: Adipose and muscle stem cells. |
| Q37726150 | Identification and characterization of PDGFRα+ mesenchymal progenitors in human skeletal muscle. |
| Q52856622 | Identification, Isolation, and Characterization of Mesenchymal Progenitors in Mouse and Human Skeletal Muscle. |
| Q38545114 | Identifying the Cellular Mechanisms Leading to Heterotopic Ossification. |
| Q41045084 | Increased levels of interleukin-6 exacerbate the dystrophic phenotype in mdx mice. |
| Q41857486 | Inhibition of PDGFR signaling prevents muscular fatty infiltration after rotator cuff tear in mice |
| Q55365056 | Inhibition of the Activin Receptor Type-2B Pathway Restores Regenerative Capacity in Satellite Cell-Depleted Skeletal Muscle. |
| Q26800192 | Interactions between muscle stem cells, mesenchymal-derived cells and immune cells in muscle homeostasis, regeneration and disease |
| Q35998810 | Intermuscular and intramuscular adipose tissues: Bad vs. good adipose tissues |
| Q96955244 | Intervertebral disc herniation effects on multifidus muscle composition and resident stem cell populations |
| Q36682969 | Intradermal adipocytes mediate fibroblast recruitment during skin wound healing |
| Q37741521 | Intronic polyadenylation of PDGFRα in resident stem cells attenuates muscle fibrosis. |
| Q39664569 | Investigating the cellular origin of rotator cuff muscle fatty infiltration and fibrosis after injury |
| Q38583172 | Invited review: mesenchymal progenitor cells in intramuscular connective tissue development |
| Q37298113 | Isolation, characterization, and molecular regulation of muscle stem cells. |
| Q90633734 | Janus effect of glucocorticoids on differentiation of muscle fibro/adipogenic progenitors |
| Q37247844 | Local and Circulating Endothelial Cells Undergo Endothelial to Mesenchymal Transition (EndMT) in Response to Musculoskeletal Injury |
| Q101138711 | M-Ras is muscle-Ras, moderate-Ras, Mineral-Ras, migration-Ras, and many more-Ras |
| Q39412400 | Macrophage Depletion Impairs Skeletal Muscle Regeneration: the Roles of Pro-fibrotic Factors, Inflammation, and Oxidative Stress |
| Q40138821 | Macrophages commit postnatal endothelium-derived progenitors to angiogenesis and restrict endothelial to mesenchymal transition during muscle regeneration. |
| Q38055729 | Meat Science and Muscle Biology Symposium: manipulating mesenchymal progenitor cell differentiation to optimize performance and carcass value of beef cattle |
| Q64078442 | Mesenchymal Progenitors Derived from Different Locations in Long Bones Display Diverse Characteristics |
| Q36036209 | Mesenchymal Stem Cells from Human Extra Ocular Muscle Harbor Neuroectodermal Differentiation Potential. |
| Q51761478 | Mesenchymal Stem Cells in the Musculoskeletal System: From Animal Models to Human Tissue Regeneration? |
| Q89531241 | Metabolic reprogramming of fibro/adipogenic progenitors facilitates muscle regeneration |
| Q89881518 | Model systems for regeneration: the spiny mouse, Acomys cahirinus |
| Q35799191 | Molecular Factors Underlying the Deposition of Intramuscular Fat and Collagen in Skeletal Muscle of Nellore and Angus Cattle. |
| Q97517258 | Molecular Phenotyping of White Striping and Wooden Breast Myopathies in Chicken |
| Q39155795 | Muscle Interstitial Cells: A Brief Field Guide to Non-satellite Cell Populations in Skeletal Muscle |
| Q35858476 | Muscle Regeneration with Intermuscular Adipose Tissue (IMAT) Accumulation Is Modulated by Mechanical Constraints |
| Q88046702 | Muscle Stem/Progenitor Cells and Mesenchymal Stem Cells of Bone Marrow Origin for Skeletal Muscle Regeneration in Muscular Dystrophies |
| Q37584302 | Muscle Weakness and Fibrosis Due to Cell Autonomous and Non-cell Autonomous Events in Collagen VI Deficient Congenital Muscular Dystrophy |
| Q34555903 | Muscle side population cells from dystrophic or injured muscle adopt a fibro-adipogenic fate |
| Q36584640 | Muscle-specific microRNAs as biomarkers of Duchenne Muscular Dystrophy progression and response to therapies |
| Q90704812 | Myo-REG: A Portal for Signaling Interactions in Muscle Regeneration |
| Q45054140 | Myogenic Differentiation Potential of Mesenchymal Stem Cells Derived from Fetal Bovine Bone Marrow. |
| Q87654913 | Myotube formation is affected by adipogenic lineage cells in a cell-to-cell contact-independent manner |
| Q49795395 | Nilotinib impairs skeletal myogenesis by increasing myoblast proliferation |
| Q48178007 | Nilotinib reduces muscle fibrosis in chronic muscle injury by promoting TNF-mediated apoptosis of fibro/adipogenic progenitors |
| Q64898498 | Nintedanib decreases muscle fibrosis and improves muscle function in a murine model of dystrophinopathy. |
| Q38294971 | Nitric oxide regulates multiple functions and fate of adult progenitor and stem cells |
| Q38246459 | Nitric oxide synthase deficiency and the pathophysiology of muscular dystrophy |
| Q37716791 | Non-myogenic Contribution to Muscle Development and Homeostasis: The Role of Connective Tissues |
| Q26746261 | Nutrigenomics and Beef Quality: A Review about Lipogenesis |
| Q36392842 | Obesity Impairs Skeletal Muscle Regeneration Through Inhibition of AMPK. |
| Q47154344 | Odd skipped-related 1 identifies a population of embryonic fibro-adipogenic progenitors regulating myogenesis during limb development. |
| Q33685332 | Optical coherence tomography-based contact indentation for diaphragm mechanics in a mouse model of transforming growth factor alpha induced lung disease. |
| Q36264658 | Origin of fibrosing cells in systemic sclerosis |
| Q34606971 | Osteogenic differentiation capacity of human skeletal muscle-derived progenitor cells |
| Q36586438 | Osteogenic potential of alpha smooth muscle actin expressing muscle resident progenitor cells |
| Q52716623 | Oxidative stress-mediated senescence in mesenchymal progenitor cells causes the loss of their fibro/adipogenic potential and abrogates myoblast fusion. |
| Q42366814 | PDGFRα signalling promotes fibrogenic responses in collagen-producing cells in Duchenne muscular dystrophy |
| Q58726978 | Palovarotene reduces heterotopic ossification in juvenile FOP mice but exhibits pronounced skeletal toxicity |
| Q34201678 | Pericytes: multitasking cells in the regeneration of injured, diseased, and aged skeletal muscle |
| Q52600938 | Perivascular cell αv integrins as a target to treat skeletal muscle fibrosis. |
| Q41887623 | Postmitotic Expression of SOD1(G93A) Gene Affects the Identity of Myogenic Cells and Inhibits Myoblasts Differentiation. |
| Q38364228 | Regulation and Relevance of Myofibroblast Responses in Idiopathic Pulmonary Fibrosis |
| Q34356467 | Regulation of fibroblast lipid storage and myofibroblast phenotypes during alveolar septation in mice |
| Q50167143 | Regulation of fibrosis in muscular dystrophy |
| Q39120708 | Regulation of muscle growth and regeneration by the immune system |
| Q37657163 | Regulation of the muscle fiber microenvironment by activated satellite cells during hypertrophy |
| Q54979912 | Relationship between Intermuscular Adipose Tissue Infiltration and Myostatin before and after Aerobic Exercise Training. |
| Q38065650 | Resident mesenchymal cells and fibrosis |
| Q90463556 | Review: Enhancing intramuscular fat development via targeting fibro-adipogenic progenitor cells in meat animals |
| Q26778322 | Role of Inflammation in Muscle Homeostasis and Myogenesis |
| Q89668268 | Role of Metabolic Stress and Exercise in Regulating Fibro/Adipogenic Progenitors |
| Q92568053 | Role of noncanonical Wnt ligands and Ror-family receptor tyrosine kinases in the development, regeneration, and diseases of the musculoskeletal system |
| Q24634546 | Role of pericytes in skeletal muscle regeneration and fat accumulation |
| Q36521628 | Role of stem/progenitor cells in reparative disorders |
| Q38189358 | Role of the TWEAK-Fn14-cIAP1-NF-κB Signaling Axis in the Regulation of Myogenesis and Muscle Homeostasis |
| Q38748766 | Roles of chondroitin sulfate proteoglycan 4 in fibrogenic/adipogenic differentiation in skeletal muscle tissues. |
| Q37598995 | Roles of nonmyogenic mesenchymal progenitors in pathogenesis and regeneration of skeletal muscle. |
| Q28078894 | SWI/SNF-directed stem cell lineage specification: dynamic composition regulates specific stages of skeletal myogenesis |
| Q36382552 | Secondary muscle pathology and metabolic dysregulation in adults with cerebral palsy |
| Q39332229 | Seeking the source of adipocytes in adult white adipose tissues |
| Q47285850 | Short-term disuse promotes fatty acid infiltration into skeletal muscle |
| Q38936319 | Single Cell Gene Expression Profiling of Skeletal Muscle-Derived Cells |
| Q90239535 | Single-Cell Analysis of the Muscle Stem Cell Hierarchy Identifies Heterotypic Communication Signals Involved in Skeletal Muscle Regeneration |
| Q89606487 | Single-cell revolution unveils the mysteries of the regenerative mammalian digit tip |
| Q92643773 | Single-cell transcriptional profiles in human skeletal muscle |
| Q61450727 | Skeletal Muscle Fibrosis in Pancreatic Cancer Patients with Respect to Survival |
| Q93120636 | Skeletal Muscle Progenitor Cell Heterogeneity |
| Q38946672 | Skeletal and cardiac muscle pericytes: Functions and therapeutic potential |
| Q38860573 | Skeletal muscle fibroblasts in health and disease |
| Q57033144 | Skeletal muscle fibrosis is associated with decreased muscle inflammation and weakness in patients with chronic kidney disease |
| Q89746722 | Skeletal muscle in health and disease |
| Q38258077 | Skeletal muscle tissue engineering: strategies for volumetric constructs |
| Q38574271 | Soft tissue fillers as non-specific modulators of adipogenesis: change of the paradigm? |
| Q90190005 | Stem Cell Aging in Skeletal Muscle Regeneration and Disease |
| Q40966771 | Stem Cells and Tissue Niche: Two Faces of the Same Coin of Muscle Regeneration. |
| Q48785844 | Supplementation of grazing beef cows during gestation as a strategy to improve skeletal muscle development of the offspring |
| Q33722361 | Surgical Excision of Heterotopic Ossification Leads to Re-Emergence of Mesenchymal Stem Cell Populations Responsible for Recurrence |
| Q90661491 | TGF-β-driven muscle degeneration and failed regeneration underlie disease onset in a DMD mouse model |
| Q64938336 | Targeting a therapeutic LIF transgene to muscle via the immune system ameliorates muscular dystrophy. |
| Q41965451 | Targeting latent TGFβ release in muscular dystrophy |
| Q53115057 | Tenotomy immobilization as a model to investigate skeletal muscle fibrosis (with emphasis on Secreted frizzled-related protein 2). |
| Q59042618 | The Basis of Muscle Regeneration |
| Q64080423 | The Late Effects of Radiation Therapy on Skeletal Muscle Morphology and Progenitor Cell Content are Influenced by Diet-Induced Obesity and Exercise Training in Male Mice |
| Q37505068 | The Role of Adipocytes in Tissue Regeneration and Stem Cell Niches |
| Q64068253 | The effect of type 2 diabetes mellitus and obesity on muscle progenitor cell function |
| Q41674927 | The extraocular muscle stem cell niche is resistant to ageing and disease |
| Q64100441 | The immunosuppressant drug azathioprine restrains adipogenesis of muscle Fibro/Adipogenic Progenitors from dystrophic mice by affecting AKT signaling |
| Q49034737 | The pathway to muscle fibrosis depends on myostatin stimulating the differentiation of fibro/adipogenic progenitor cells in chronic kidney disease |
| Q89769218 | The perivascular origin of pathological fibroblasts |
| Q47615128 | The primary cilium is necessary for the differentiation and the maintenance of human adipose progenitors into myofibroblasts. |
| Q42502170 | Three distinct cell populations express extracellular matrix proteins and increase in number during skeletal muscle fibrosis |
| Q38114163 | Tissue-resident mesenchymal stem/progenitor cells in skeletal muscle: collaborators or saboteurs? |
| Q42957210 | Tissue-resident Sca1+ PDGFRα+ mesenchymal progenitors are the cellular source of fibrofatty infiltration in arrhythmogenic cardiomyopathy |
| Q55094954 | Tissue-specific activities of the Fat1 cadherin cooperate to control neuromuscular morphogenesis. |
| Q38895037 | Transforming growth factor type-β inhibits Mas receptor expression in fibroblasts but not in myoblasts or differentiated myotubes; Relevance to fibrosis associated to muscular dystrophies. |
| Q54062963 | Traumatic muscle fibrosis: From pathway to prevention. |
| Q42609904 | Treatment with the anti-IL-6 receptor antibody attenuates muscular dystrophy via promoting skeletal muscle regeneration in dystrophin-/utrophin-deficient mice. |
| Q40459563 | Two tissue-resident progenitor lineages drive distinct phenotypes of heterotopic ossification. |
| Q49330176 | Uncoupling protein 1 expression in adipocytes derived from skeletal muscle fibro/adipogenic progenitors is under genetic and hormonal control |
| Q39072040 | Understanding the developmental pathways pulmonary fibroblasts may follow during alveolar regeneration |
| Q39699112 | Understanding the process of fibrosis in Duchenne muscular dystrophy. |
| Q89698445 | Vitamin A supplementation effects during late-stage pregnancy on longissimus dorsi muscle tissue development, birth traits, and growth performance in postnatal Korean native calves |
| Q34448278 | Zfp423 promotes adipogenic differentiation of bovine stromal vascular cells |
| Q37469156 | mTOR inhibition and BMP signaling act synergistically to reduce muscle fibrosis and improve myofiber regeneration |
| Q61443226 | sPIF promotes myoblast differentiation and utrophin expression while inhibiting fibrosis in Duchenne muscular dystrophy via the H19/miR-675/let-7 and miR-21 pathways |
| Q47213785 | α-smooth muscle actin is not a marker of fibrogenic cell activity in skeletal muscle fibrosis. |
| Q42646029 | αv integrins on mesenchymal cells regulate skeletal and cardiac muscle fibrosis. |
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