The development of genipin-crosslinked poly(caprolactone) (PCL)/gelatin nanofibers for tissue engineering applications

Min Sup Kim; Indong Jun; Young Min Shin; Wonhee Jang; Sun I. Kim; Heungsoo Shin

doi:10.1002/mabi.200900168

The development of genipin-crosslinked poly(caprolactone) (PCL)/gelatin nanofibers for tissue engineering applications

Min Sup Kim, Indong Jun, Young Min Shin, Wonhee Jang, Sun I. Kim, Heungsoo Shin

Department of Life Science

Hanyang University

Research output: Contribution to journal › Article › peer-review

162 Scopus citations

Abstract

Composite nanofibers of poly(caprolactone) (PCL) and gelatin crosslinked with genipin are prepared. The contact angles and mechanical properties of crosslinked PCL-gelatin nanofibers decrease as the gelatin content increases. The proliferation of myoblasts is higher in the crosslinked PCL-gelatin nanofibers than in the PCL nanofibers, and the formation of myotubes is only observed on the crosslinked PCL-gelatin nanofibers. The expression level of myogenin, myosin heavy chain, and troponin T genes is increased as the gelatin content is increased. The results suggest that PCL-gelatin nanofibers cross-linked with genipin can be used as a substrate to modulate proliferation and differentiation of myoblasts, presenting potential applications in muscle tissue engineering. (Figure Presented).

Original language	English
Pages (from-to)	91-100
Number of pages	10
Journal	Macromolecular Bioscience
Volume	10
Issue number	1
DOIs	https://doi.org/10.1002/mabi.200900168
State	Published - 11 Jan 2010

Keywords

Electrospinning
Gelatin
Polycaprolactone
Skeletal muscles
Tissue engineering

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title = "The development of genipin-crosslinked poly(caprolactone) (PCL)/gelatin nanofibers for tissue engineering applications",

abstract = "Composite nanofibers of poly(caprolactone) (PCL) and gelatin crosslinked with genipin are prepared. The contact angles and mechanical properties of crosslinked PCL-gelatin nanofibers decrease as the gelatin content increases. The proliferation of myoblasts is higher in the crosslinked PCL-gelatin nanofibers than in the PCL nanofibers, and the formation of myotubes is only observed on the crosslinked PCL-gelatin nanofibers. The expression level of myogenin, myosin heavy chain, and troponin T genes is increased as the gelatin content is increased. The results suggest that PCL-gelatin nanofibers cross-linked with genipin can be used as a substrate to modulate proliferation and differentiation of myoblasts, presenting potential applications in muscle tissue engineering. (Figure Presented).",

keywords = "Electrospinning, Gelatin, Polycaprolactone, Skeletal muscles, Tissue engineering",

author = "Kim, {Min Sup} and Indong Jun and Shin, {Young Min} and Wonhee Jang and Kim, {Sun I.} and Heungsoo Shin",

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AU - Kim, Min Sup

AU - Jun, Indong

AU - Shin, Young Min

AU - Jang, Wonhee

AU - Kim, Sun I.

AU - Shin, Heungsoo

PY - 2010/1/11

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N2 - Composite nanofibers of poly(caprolactone) (PCL) and gelatin crosslinked with genipin are prepared. The contact angles and mechanical properties of crosslinked PCL-gelatin nanofibers decrease as the gelatin content increases. The proliferation of myoblasts is higher in the crosslinked PCL-gelatin nanofibers than in the PCL nanofibers, and the formation of myotubes is only observed on the crosslinked PCL-gelatin nanofibers. The expression level of myogenin, myosin heavy chain, and troponin T genes is increased as the gelatin content is increased. The results suggest that PCL-gelatin nanofibers cross-linked with genipin can be used as a substrate to modulate proliferation and differentiation of myoblasts, presenting potential applications in muscle tissue engineering. (Figure Presented).

AB - Composite nanofibers of poly(caprolactone) (PCL) and gelatin crosslinked with genipin are prepared. The contact angles and mechanical properties of crosslinked PCL-gelatin nanofibers decrease as the gelatin content increases. The proliferation of myoblasts is higher in the crosslinked PCL-gelatin nanofibers than in the PCL nanofibers, and the formation of myotubes is only observed on the crosslinked PCL-gelatin nanofibers. The expression level of myogenin, myosin heavy chain, and troponin T genes is increased as the gelatin content is increased. The results suggest that PCL-gelatin nanofibers cross-linked with genipin can be used as a substrate to modulate proliferation and differentiation of myoblasts, presenting potential applications in muscle tissue engineering. (Figure Presented).

KW - Electrospinning

KW - Gelatin

KW - Polycaprolactone

KW - Skeletal muscles

KW - Tissue engineering

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The development of genipin-crosslinked poly(caprolactone) (PCL)/gelatin nanofibers for tissue engineering applications

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Keywords

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