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Toll-like receptor 2-modulating pectin-polymers in alginate-based microcapsules attenuate immune responses and support islet-xenograft survival

Shuxian Hu, Rei Kuwabara, Carlos E. Navarro Chica, Alexandra M. Smink, Taco Koster, Juan D. Medina, Bart J. de Haan, Martin Beukema, Jonathan R. T. Lakey, Andrés J. Garcı́a, Paul de Vos

2020Biomaterials58 citationsDOIOpen Access PDF

Abstract

Encapsulation of pancreatic islets in alginate-microcapsules is used to reduce or avoid the application of life-long immunosuppression in preventing rejection. Long-term graft function, however, is limited due to varying degrees of host tissue responses against the capsules. Major graft-longevity limiting responses include inflammatory responses provoked by biomaterials and islet-derived danger-associated molecular patterns (DAMPs). This paper reports on a novel strategy for engineering alginate microcapsules presenting immunomodulatory polymer pectin with varying degrees of methyl-esterification (DM) to reduce these host tissue responses. DM18-pectin/alginate microcapsules show a significant decrease of DAMP-induced Toll-Like Receptor-2 mediated immune activation in vitro, and reduce peri-capsular fibrosis in vivo in mice compared to higher DM-pectin/alginate microcapsules and conventional alginate microcapsules. By testing efficacy of DM18-pectin/alginate microcapsules in vivo, we demonstrate that low-DM pectin support long-term survival of xenotransplanted rat islets in diabetic mice. This study provides a novel strategy to attenuate host responses by creating immunomodulatory capsule surfaces that attenuate activation of specific pro-inflammatory immune receptors locally at the transplantation site.

Topics & Concepts

IsletImmune systemIn vivoTransplantationPectinFibrosisReceptorMaterials scienceCell biologyImmunologyChemistryBiologyInsulinMedicineBiochemistryPathologySurgeryEndocrinologyBiotechnologyPancreatic function and diabetesCannabis and Cannabinoid ResearchDiabetes and associated disorders
Toll-like receptor 2-modulating pectin-polymers in alginate-based microcapsules attenuate immune responses and support islet-xenograft survival | Litcius