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1-4 of 4
Antonio L. Serrano
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Journal Articles
Esther Ardite, Eusebio Perdiguero, Berta Vidal, Susana Gutarra, Antonio L. Serrano, Pura Muñoz-Cánoves
Journal:
Journal of Cell Biology
Journal of Cell Biology (2012) 196 (1): 163–175.
Published: 02 January 2012
Abstract
Disruption of skeletal muscle homeostasis by substitution with fibrotic tissue constitutes the principal cause of death in Duchenne muscular dystrophy (DMD) patients, yet the implicated fibrogenic mechanisms remain poorly understood. This study identifies the extracellular PAI-1/urokinase-type plasminogen activator (uPA) balance as an important regulator of microribonucleic acid (miR)–21 biogenesis, controlling age-associated muscle fibrosis and dystrophy progression. Genetic loss of PAI-1 in mdx dystrophic mice anticipated muscle fibrosis through these sequential mechanisms: the alteration of collagen metabolism by uPA-mediated proteolytic processing of transforming growth factor (TGF)–β in muscle fibroblasts and the activation of miR-21 expression, which inhibited phosphatase and tensin homologue and enhanced AKT signaling, thus endowing TGF-β with a remarkable cell proliferation–promoting potential. Age-associated fibrogenesis and muscle deterioration in mdx mice, as well as exacerbated dystrophy in young PAI-1 −/− mdx mice, could be reversed by miR-21 or uPA-selective interference, whereas forced miR-21 overexpression aggravated disease severity. The PAI-1–miR-21 fibrogenic axis also appeared dysregulated in muscle of DMD patients, providing a basis for effectively targeting fibrosis and muscular dystrophies in currently untreatable individuals.
Includes: Supplementary data
Journal Articles
Eusebio Perdiguero, Pedro Sousa-Victor, Vanessa Ruiz-Bonilla, Mercè Jardí, Carme Caelles, Antonio L. Serrano, Pura Muñoz-Cánoves
Journal:
Journal of Cell Biology
Journal of Cell Biology (2011) 195 (2): 307–322.
Published: 10 October 2011
Abstract
Repair of damaged tissue requires the coordinated action of inflammatory and tissue-specific cells to restore homeostasis, but the underlying regulatory mechanisms are poorly understood. In this paper, we report new roles for MKP-1 (mitogen-activated protein kinase [MAPK] phosphatase-1) in controlling macrophage phenotypic transitions necessary for appropriate muscle stem cell–dependent tissue repair. By restricting p38 MAPK activation, MKP-1 allows the early pro- to antiinflammatory macrophage transition and the later progression into a macrophage exhaustion-like state characterized by cytokine silencing, thereby permitting resolution of inflammation as tissue fully recovers. p38 hyperactivation in macrophages lacking MKP-1 induced the expression of microRNA-21 (miR-21), which in turn reduced PTEN (phosphatase and tensin homologue) levels, thereby extending AKT activation. In the absence of MKP-1, p38-induced AKT activity anticipated the acquisition of the antiinflammatory gene program and final cytokine silencing in macrophages, resulting in impaired tissue healing. Such defects were reversed by temporally controlled p38 inhibition. Conversely, miR-21–AKT interference altered homeostasis during tissue repair. This novel regulatory mechanism involving the appropriate balance of p38, MKP-1, miR-21, and AKT activities may have implications in chronic inflammatory degenerative diseases.
Includes: Multimedia, Supplementary data
Journal Articles
Mònica Suelves, Berta Vidal, Antonio L. Serrano, Marc Tjwa, Josep Roma, Roser López-Alemany, Aernout Luttun, María Martínez de Lagrán, Àngels Díaz-Ramos, Mercè Jardí, Manuel Roig, Mara Dierssen, Mieke Dewerchin, Peter Carmeliet, Pura Muñoz-Cánoves
Journal:
Journal of Cell Biology
Journal of Cell Biology (2007) 179 (1): 165.
Published: 08 October 2007
Journal Articles
Mònica Suelves, Berta Vidal, Antonio L. Serrano, Marc Tjwa, Josep Roma, Roser López-Alemany, Aernout Luttun, María Martínez de Lagrán, Maria Àngels Díaz, Mercè Jardí, Manuel Roig, Mara Dierssen, Mieke Dewerchin, Peter Carmeliet, Pura Muñoz-Cánoves
Journal:
Journal of Cell Biology
Journal of Cell Biology (2007) 178 (6): 1039–1051.
Published: 04 September 2007
Abstract
Duchenne muscular dystrophy (DMD) is a fatal and incurable muscle degenerative disorder. We identify a function of the protease urokinase plasminogen activator (uPA) in mdx mice, a mouse model of DMD. The expression of uPA is induced in mdx dystrophic muscle, and the genetic loss of uPA in mdx mice exacerbated muscle dystrophy and reduced muscular function. Bone marrow (BM) transplantation experiments revealed a critical function for BM-derived uPA in mdx muscle repair via three mechanisms: (1) by promoting the infiltration of BM-derived inflammatory cells; (2) by preventing the excessive deposition of fibrin; and (3) by promoting myoblast migration. Interestingly, genetic loss of the uPA receptor in mdx mice did not exacerbate muscular dystrophy in mdx mice, suggesting that uPA exerts its effects independently of its receptor. These findings underscore the importance of uPA in muscular dystrophy.
Includes: Supplementary data