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Engineering Stem Cell Fate Controlling Biomaterials to Develop Muscle Connective Tissue Layered Myofibers.
Han, Seokgyu; Lee, Myung Chul; Rodríguez-delaRosa, Alejandra; Kim, Jiseong; Barroso-Zuppa, Margot; Pineda-Rosales, Montserrat; Kim, Seong Soo; Hatanaka, Takaaki; Yazdi, Iman K; Bassous, Nicole; Sinha, Indranil; Pourquié, Olivier; Park, Sungsu; Shin, Su Ryon.
Affiliation
  • Han S; Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA 02139, USA.
  • Lee MC; School of Mechanical Engineering, Sungkyunkwan University (SKKU), Suwon 16419, Republic of Korea.
  • Rodríguez-delaRosa A; Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA 02139, USA.
  • Kim J; Department of Pathology, Brigham and Women's Hospital, Boston, MA 02115, USA.
  • Barroso-Zuppa M; Department of Genetics, Harvard Medical School, Boston, MA 02115, USA.
  • Pineda-Rosales M; Harvard Stem Cell Institute, Harvard University, Boston, MA 02138, USA.
  • Kim SS; Department of Medical Biotechnology, Dongguk University, 32 Dongguk-ro, Goyang 10326, Republic of Korea.
  • Hatanaka T; Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA 02139, USA.
  • Yazdi IK; School of Medicine and Health Sciences, Tecnologico de Monterrey, Mexico City 14380, Mexico.
  • Bassous N; School of Medicine, Boston University, 72 East Concord Street, Boston, MA 02118, USA.
  • Sinha I; Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA 02139, USA.
  • Pourquié O; School of Engineering and Science, Tecnologico de Monterrey, Santiago de Querétaro, Querétaro 76130, Mexico.
  • Park S; Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA 02139, USA.
  • Shin SR; Division of Engineering in Medicine, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Cambridge, MA 02139, USA.
Adv Funct Mater ; 34(3)2024 Jan 15.
Article in En | MEDLINE | ID: mdl-38707790
ABSTRACT
Skeletal muscle connective tissue (MCT) surrounds myofiber bundles to provide structural support, produce force transduction from tendons, and regulate satellite cell differentiation during muscle regeneration. Engineered muscle tissue composed of myofibers layered within MCT has not yet been developed. Herein, a bioengineering strategy to create MCT-layered myofibers through the development of stem cell fate-controlling biomaterials that achieve both myogenesis and fibroblast differentiation in a locally controlled manner at the single construct is introduced. The reciprocal role of transforming growth factor-beta 1 (TGF-ß1) and its inhibitor as well as 3D matrix stiffness to achieve co-differentiation of MCT fibroblasts and myofibers from a human-induced pluripotent stem cell (hiPSC)-derived paraxial mesoderm is studied. To avoid myogenic inhibition, TGF-ß1 is conjugated on the gelatin-based hydrogel to control the fibroblasts' populations locally; the TGF-ß1 degrades after 2 weeks, resulting in increased MCT-specific extracellular matrix (ECM) production. The locations of myofibers and fibroblasts are precisely controlled by using photolithography and co-axial wet spinning techniques, which results in the formation of MCT-layered functional myofibers in 3D constructs. This advanced engineering strategy is envisioned as a possible method for obtaining biomimetic human muscle grafts for various biomedical applications.
Key words

Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Adv Funct Mater Year: 2024 Document type: Article Affiliation country: United States Country of publication: Germany

Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Adv Funct Mater Year: 2024 Document type: Article Affiliation country: United States Country of publication: Germany