Growth of MIN-6 Cells on Salmon Fibrinogen Scaffold Improves Insulin Secretion

The incidence of type I diabetes has been increasing worldwide at an annual rate of approximately 3%. One of the strategies to treat type I diabetes is islet transplantation, in which damaged β-cells are replaced with new islets. To improve β-cells' expansion and pseudoislet formation, studies...

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Published in	Pharmaceutics Vol. 14; no. 5; p. 941
Main Authors	Laidmäe, Ivo, Aints, Alar, Uibo, Raivo
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 26.04.2022 MDPI
Subjects	3D cell culturing Binding sites Cell growth Diabetes electrospinning Extracellular matrix Gene expression Glucose Hydrogels Insulin insulin secretion Morphology pancreatic islet β-cells salmon fibrinogen Tissue engineering Wound healing United Kingdom > UK United States > US Japan Germany salmon fibrinogen 3D cell culturing insulin secretion electrospinning pancreatic islet β-cells
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Abstract	The incidence of type I diabetes has been increasing worldwide at an annual rate of approximately 3%. One of the strategies to treat type I diabetes is islet transplantation, in which damaged β-cells are replaced with new islets. To improve β-cells' expansion and pseudoislet formation, studies are focusing on using extracellular-matrix-resembling substrates. We evaluated the potential of salmon fibrinogen and chitosan electrospun scaffold as cell substrate for cultivating MIN-6 cells. The morphology of cells, insulin secretion and gene expression was evaluated and compared with other substrates (nanofibrous scaffold, microporous scaffold and tissue culture polystyrene). We found that all tested 3D conditions favored the pseudoislet formation of MIN-6 cells. The insulin secretion of MIN-6 cells after stimulation with high-glucose media shows approximately a 9-fold increase compared to the control group when a fibrinogen/chitosan-based electrospun scaffold was used for cultivation. The differences in insulin secretion were corroborated by differences in gene expression. The differences in insulin secretion could probably be attributed to the differences in the mechanical and/or chemical nature of the tested substrates.
AbstractList	The incidence of type I diabetes has been increasing worldwide at an annual rate of approximately 3%. One of the strategies to treat type I diabetes is islet transplantation, in which damaged β-cells are replaced with new islets. To improve β-cells’ expansion and pseudoislet formation, studies are focusing on using extracellular-matrix-resembling substrates. We evaluated the potential of salmon fibrinogen and chitosan electrospun scaffold as cell substrate for cultivating MIN-6 cells. The morphology of cells, insulin secretion and gene expression was evaluated and compared with other substrates (nanofibrous scaffold, microporous scaffold and tissue culture polystyrene). We found that all tested 3D conditions favored the pseudoislet formation of MIN-6 cells. The insulin secretion of MIN-6 cells after stimulation with high-glucose media shows approximately a 9-fold increase compared to the control group when a fibrinogen/chitosan-based electrospun scaffold was used for cultivation. The differences in insulin secretion were corroborated by differences in gene expression. The differences in insulin secretion could probably be attributed to the differences in the mechanical and/or chemical nature of the tested substrates.
Author	Uibo, Raivo Laidmäe, Ivo Aints, Alar
AuthorAffiliation	2 Institute of Pharmacy, Faculty of Medicine, University of Tartu, Nooruse 1, 50411 Tartu, Estonia 3 Estonian Academy of Sciences, Kohtu 6, 10130 Tallinn, Estonia 1 Department of Immunology, Institute of Biomedicine and Translational Medicine, Faculty of Medicine, University of Tartu, Ravila 19, 50411 Tartu, Estonia; alar.aints@ut.ee (A.A.); raivo.uibo@ut.ee (R.U.)
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Snippet	The incidence of type I diabetes has been increasing worldwide at an annual rate of approximately 3%. One of the strategies to treat type I diabetes is islet...
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StartPage	941
SubjectTerms	3D cell culturing Binding sites Cell growth Diabetes electrospinning Extracellular matrix Gene expression Glucose Hydrogels Insulin insulin secretion Morphology pancreatic islet β-cells salmon fibrinogen Tissue engineering Wound healing
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Title	Growth of MIN-6 Cells on Salmon Fibrinogen Scaffold Improves Insulin Secretion
URI	https://www.ncbi.nlm.nih.gov/pubmed/35631527 https://www.proquest.com/docview/2670328208/abstract/ https://search.proquest.com/docview/2671271600 https://pubmed.ncbi.nlm.nih.gov/PMC9144899 https://doaj.org/article/059c711623c347f48018f7ac189c9276
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