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Biomechanical Strain Exacerbates Inflammation on a Progeria-on-a-Chip Model.
Ribas, João; Zhang, Yu Shrike; Pitrez, Patrícia R; Leijten, Jeroen; Miscuglio, Mario; Rouwkema, Jeroen; Dokmeci, Mehmet Remzi; Nissan, Xavier; Ferreira, Lino; Khademhosseini, Ali.
Afiliação
  • Ribas J; Biomaterials Innovation Research Center, Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA, 02139, USA.
  • Zhang YS; Harvard-MIT Division of Health Sciences and Technology, Massachusetts Institute of Technology, Cambridge, MA, 02139, USA.
  • Pitrez PR; Doctoral Program in Experimental Biology and Biomedicine, Center for Neuroscience and Cell Biology, Institute for Interdisciplinary Research, University of Coimbra, 3030-789, Coimbra, Portugal.
  • Leijten J; Biomaterials Innovation Research Center, Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA, 02139, USA.
  • Miscuglio M; Harvard-MIT Division of Health Sciences and Technology, Massachusetts Institute of Technology, Cambridge, MA, 02139, USA.
  • Rouwkema J; CNC-Centre for Neuroscience and Cell Biology, University of Coimbra, 3030-789, Coimbra, Portugal.
  • Dokmeci MR; Institute for Interdisciplinary Research, University of Coimbra, 3030-789, Coimbra, Portugal.
  • Nissan X; Biomaterials Innovation Research Center, Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA, 02139, USA.
  • Ferreira L; Harvard-MIT Division of Health Sciences and Technology, Massachusetts Institute of Technology, Cambridge, MA, 02139, USA.
  • Khademhosseini A; Department of Developmental BioEngineering, MIRA Institute for Biomedical Technology and Technical Medicine, University of Twente, 7500, AE Enschede, The Netherlands.
Small ; 13(15)2017 04.
Article em En | MEDLINE | ID: mdl-28211642
Organ-on-a-chip platforms seek to recapitulate the complex microenvironment of human organs using miniaturized microfluidic devices. Besides modeling healthy organs, these devices have been used to model diseases, yielding new insights into pathophysiology. Hutchinson-Gilford progeria syndrome (HGPS) is a premature aging disease showing accelerated vascular aging, leading to the death of patients due to cardiovascular diseases. HGPS targets primarily vascular cells, which reside in mechanically active tissues. Here, a progeria-on-a-chip model is developed and the effects of biomechanical strain are examined in the context of vascular aging and disease. Physiological strain induces a contractile phenotype in primary smooth muscle cells (SMCs), while a pathological strain induces a hypertensive phenotype similar to that of angiotensin II treatment. Interestingly, SMCs derived from human induced pluripotent stem cells of HGPS donors (HGPS iPS-SMCs), but not from healthy donors, show an exacerbated inflammatory response to strain. In particular, increased levels of inflammation markers as well as DNA damage are observed. Pharmacological intervention reverses the strain-induced damage by shifting gene expression profile away from inflammation. The progeria-on-a-chip is a relevant platform to study biomechanics in vascular biology, particularly in the setting of vascular disease and aging, while simultaneously facilitating the discovery of new drugs and/or therapeutic targets.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Progéria / Progressão da Doença / Dispositivos Lab-On-A-Chip / Inflamação Limite: Humans Idioma: En Revista: Small Assunto da revista: ENGENHARIA BIOMEDICA Ano de publicação: 2017 Tipo de documento: Article País de afiliação: Estados Unidos

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Progéria / Progressão da Doença / Dispositivos Lab-On-A-Chip / Inflamação Limite: Humans Idioma: En Revista: Small Assunto da revista: ENGENHARIA BIOMEDICA Ano de publicação: 2017 Tipo de documento: Article País de afiliação: Estados Unidos