Literature DB >> 26335860

Ductile electroactive biodegradable hyperbranched polylactide copolymers enhancing myoblast differentiation.

Meihua Xie1, Ling Wang1, Baolin Guo2, Zhong Wang3, Y Eugene Chen3, Peter X Ma4.   

Abstract

Myotube formation is crucial to restoring muscular functions, and biomaterials that enhance the myoblast differentiation into myotubes are highly desirable for muscular repair. Here, we report the synthesis of electroactive, ductile, and degradable copolymers and their application in enhancing the differentiation of myoblasts to myotubes. A hyperbranched ductile polylactide (HPLA) was synthesized and then copolymerized with aniline tetramer (AT) to produce a series of electroactive, ductile and degradable copolymers (HPLAAT). The HPLA and HPLAAT showed excellent ductility with strain to failure from 158.9% to 42.7% and modulus from 265.2 to 758.2 MPa. The high electroactivity of the HPLAAT was confirmed by UV spectrometer and cyclic voltammogram measurements. These HPLAAT polymers also showed improved thermal stability and controlled biodegradation rate compared to HPLA. Importantly, when applying these polymers for myotube formation, the HPLAAT significantly improved the proliferation of C2C12 myoblasts in vitro compared to HPLA. Furthermore, these polymers greatly promoted myogenic differentiation of C2C12 cells as measured by quantitative analysis of myotube number, length, diameter, maturation index, and gene expression of MyoD and TNNT. Together, our study shows that these electroactive, ductile and degradable HPLAAT copolymers represent significantly improved biomaterials for muscle tissue engineering compared to HPLA.
Copyright © 2015 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Aniline oligomer; Degradable conducting polymers; Ductile electroactive copolymer; Polylactide; Skeletal muscle regeneration

Mesh:

Substances:

Year:  2015        PMID: 26335860      PMCID: PMC4573316          DOI: 10.1016/j.biomaterials.2015.08.042

Source DB:  PubMed          Journal:  Biomaterials        ISSN: 0142-9612            Impact factor:   12.479


  28 in total

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4.  Prolonged Culture of Aligned Skeletal Myotubes on Micromolded Gelatin Hydrogels.

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Review 10.  Recent Progress on Biodegradable Tissue Engineering Scaffolds Prepared by Thermally-Induced Phase Separation (TIPS).

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