Chondrogenic differentiation of Wharton\u2019s Jelly mesenchymal stem cells on silk spidroin-fibroin mix scaffold supplemented with L-ascorbic acid and platelet rich plasma

Anggraini Barlian,Meidiana Ebtayani Lingga,Ahmad Ridwan,Hermawan Judawisastra,Antonia Ratih Wahyuni

doi:10.1038/s41598-020-76466-8

Anggraini Barlian, Meidiana Ebtayani Lingga + Show 3 more

Open Access

https://doi.org/10.1038/s41598-020-76466-8

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Journal: Scientific Reports	Publication Date: Nov 10, 2020
Citations: 18	License type: open-access

Affiliation: Bandung Institute of Technology

Abstract

In this research, hWJ-MSCs were grown on silk scaffolds and induced towards chondrogenesis by supplementation with L-ascorbic acid (LAA) or platelet rich plasma (PRP). Silk scaffolds were fabricated with salt leaching method by mixing silk fibroin (SF) with silk spidroin (SS). The silk fibroin was obtained from Bombyx mori cocoon that had been degummed, and the silk spidroin was obtained from wild-type spider Argiope appensa. The effect of scaffold composition and inducer on cell proliferation was observed through MTT assay. The most optimal treatment then continued to be used to induce hWJ-MSC towards chondrogenic differentiation for 7 and 21 days. Scaffolds characterization showed that the scaffolds produced had 3D structure with interconnected pores, and all were biocompatible with hWJ-MSCs. Scaffold with the addition of 10% SS + 90% SF showed higher compressive strength and better pore interconnectivity in comparison to 100% silk fibroin scaffold. After 48 h, cells seeded on scaffold with spidroin and fibroin mix had flattened morphology in comparison to silk fibroin scaffold which appeared to be more rounded on the scaffold surface. Scaffold with 10% (w/w) of silk spidroin (SS) + 90% (w/w) of silk fibroin (SF) was the most optimal composition for cell proliferation. Immunocytochemistry of integrin β1 and RGD sequence, showed that scaffold with SS 10% provide better cell attachment with the presence of RGD sequence from the spidroin silk which could explain the higher cell proliferation than SF100% scaffold. Based on Alcian Blue staining and Collagen Type II immunocytochemistry (ICC), cells grown on 10% SS + 90% SF scaffold with 10% PRP supplementation were the most optimal to support chondrogenesis of hWJ-MSCs. These results showed that the addition of spidroin silk from A. appensa. had impact on scaffold compressive strength and chondrogenic differentiation of hWJ-MSC and had the potential for further development of bio-based material scaffold in cartilage tissue engineering.

Highlights

In this research, hWJ-Mesenchymal stem cells (MSC) were grown on silk scaffolds and induced towards chondrogenesis by supplementation with L-ascorbic acid (LAA) or platelet rich plasma (PRP)
HWJ have wider plasticity, and a higher proliferation rate compared to other MSCs cell s ources7. hWJ-MSCs are widely used in the development of tissue engineering to differentiate into chondrocyte, and are able to increase the production of hyaluronic acid and glycosaminoglycans as well as collagen type II, the specific component of articular cartilage ECM8
Fourier transform infared (FTIR) result of unprocessed silk fibroin and spidroin showed that unprocessed silk spidroin had slightly lower amide transmittance in comparison to silk fibroin

Summary

Introduction

HWJ-MSCs were grown on silk scaffolds and induced towards chondrogenesis by supplementation with L-ascorbic acid (LAA) or platelet rich plasma (PRP). Silk fibroin was mixed with silk spidroin to produce 3D porous scaffold that could improve hWJ-MSCs attachment, proliferation, and chondrogenic differentiation. Chondrogenic differentiation of cells on the silk scaffolds were induced by the addition of PRP or LAA in the medium.

Results

Conclusion