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An immune regulatory 3D-printed alginate-pectin construct for immunoisolation of insulin producing β-cells

Shuxian Hu, Francisco Drusso Martínez-García, Brenden N. Moeun, Janette K. Burgess, Martin C. Harmsen, Corinne A. Hoesli, Paul de Vos

2021Materials Science and Engineering C51 citationsDOIOpen Access PDF

Abstract

Different bioinks have been used to produce cell-laden alginate-based hydrogel constructs for cell replacement therapy but some of these approaches suffer from issues with print quality, long-term mechanical instability, and bioincompatibility. In this study, new alginate-based bioinks were developed to produce cell-laden grid-shaped hydrogel constructs with stable integrity and immunomodulating capacity. Integrity and printability were improved by including the co-block-polymer Pluronic F127 in alginate solutions. To reduce inflammatory responses, pectin with a low degree of methylation was included and tested for inhibition of Toll-Like Receptor 2/1 (TLR2/1) dimerization and activation and tissue responses under the skin of mice. The viscoelastic properties of alginate-Pluronic constructs were unaffected by pectin incorporation. The tested pectin protected printed insulin-producing MIN6 cells from inflammatory stress as evidenced by higher numbers of surviving cells within the pectin-containing construct following exposure to a cocktail of the pro-inflammatory cytokines namely, IL-1β, IFN-γ, and TNF-α. The results suggested that the cell-laden construct bioprinted with pectin-alginate-Pluronic bioink reduced tissue responses via inhibiting TLR2/1 and support insulin-producing β-cell survival under inflammatory stress. Our study provides a potential novel strategy to improve long-term survival of pancreatic islet grafts for Type 1 Diabetes (T1D) treatment.

Topics & Concepts

PoloxamerChemistryPectinCellInsulinBiochemistryMedicinePolymerCopolymerEndocrinologyOrganic chemistry3D Printing in Biomedical ResearchPancreatic function and diabetesInnovative Microfluidic and Catalytic Techniques Innovation