The response of three-dimensional pancreatic alpha and beta cell co-cultures to oxidative stress

Author:

Sthijns Mireille M. J. P. E.ORCID,Rademakers TimoORCID,Oosterveer Jolien,Geuens Thomas,van Blitterswijk Clemens A.,LaPointe Vanessa L. S.ORCID

Abstract

The pancreatic islets of Langerhans have low endogenous antioxidant levels and are thus especially sensitive to oxidative stress, which is known to influence cell survival and behaviour. As bioengineered islets are gaining interest for therapeutic purposes, it is important to understand how their composition can be optimized to diminish oxidative stress. We investigated how the ratio of the two main islet cell types (alpha and beta cells) and their culture in three-dimensional aggregates could protect against oxidative stress. Monolayer and aggregate cultures were established by seeding the alphaTC1 (alpha) and INS1E (beta) cell lines in varying ratios, and hydrogen peroxide was applied to induce oxidative stress. Viability, oxidative stress, and the level of the antioxidant glutathione were measured. Both aggregation and an increasing prevalence of INS1E cells in the co-cultures conferred greater resistance to cell death induced by oxidative stress. Increasing the prevalence of INS1E cells also decreased the number of alphaTC1 cells experiencing oxidative stress in the monolayer culture. In 3D aggregates, culturing the alphaTC1 and INS1E cells in a ratio of 50:50 prevented oxidative stress in both cell types. Together, the results of this study lead to new insight into how modulating the composition and dimensionality of a co-culture can influence the oxidative stress levels experienced by the cells.

Funder

European Research Council

Publisher

Public Library of Science (PLoS)

Subject

Multidisciplinary

Reference47 articles.

1. Redox-dependent inflammation in islet transplantation rejection;JM Barra;Front Endocrinol (Lausanne).,2018

2. Correlation between oxidative stress, nutrition, and cancer initiation;SK Saha;Int J Mol Sci,2017

3. Redox regulation of cell survival;D Trachootham;Antioxid Redox Signal,2008

4. Redox homeostasis: the golden mean of healthy living.;F Ursini;Redox Biol.,2016

5. Adaptation to acrolein through upregulating the protection by glutathione in human bronchial epithelial cells: the materialization of the hormesis concept;MM Sthijns;Biochem Biophys Res Commun,2014

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