A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures

A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures

A robust and easy-to-use tool for the ex vivo dynamic evaluation of pancreatic islet (PI) function is essential for further development of novel cell-based therapeutic approaches to treating diabetes. Here, we developed four different glucose perifusion protocols (GPPs) in a microfluidic perifusion...

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Main Authors: Yonathan Gomez, Victor Navarro-Tableros, Ciro Tetta, Giovanni Camussi, Maria Felice Brizzi
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Biomedicines
Subjects:
microfluidic
perifusion
c-peptide
human pancreatic islets
obese
t2dm
hlsc-ils
Online Access:https://www.mdpi.com/2227-9059/8/2/26
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spelling doaj-51bd0e9108b649849f5f801e1e9653ca2020-11-25T01:40:00ZengMDPI AGBiomedicines2227-90592020-02-01822610.3390/biomedicines8020026biomedicines8020026A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like StructuresYonathan Gomez0Victor Navarro-Tableros1Ciro Tetta2Giovanni Camussi3Maria Felice Brizzi4Unicyte AG, Molecular Biotechnology Center (MBC), University of Turin, Via Nizza, 52, 10126 Turin, Italy2i3T Società per la Gestione Dell’incubatore di Imprese e per il Trasferimento Tecnologico Scarl, University of Turin, 10126 Turin, ItalyUnicyte AG, Unicyte srl, Via Lugaro, 15, 10100 Turin, ItalyDepartment of Medical Sciences, University of Turin, Corso Dogliotti 14, 10126 Turin, ItalyDepartment of Medical Sciences, University of Turin, Corso Dogliotti 14, 10126 Turin, ItalyA robust and easy-to-use tool for the ex vivo dynamic evaluation of pancreatic islet (PI) function is essential for further development of novel cell-based therapeutic approaches to treating diabetes. Here, we developed four different glucose perifusion protocols (GPPs) in a microfluidic perifusion system (MPS), based entirely on commercially available components. After validation, the GPPs were used to evaluate C-peptide secretion profiles of PIs derived from different donors (healthy, obese, and type 2 diabetic) and from human liver stem-cell-derived islet-like structures (HLSC-ILS). Using this device, we demonstrated that PIs derived from healthy donors displayed a physiological C-peptide secretion profile as characterized by the response to (a) different glucose concentrations, (b) consecutive pulses of high-glucose concentrations, (c) a glucose threshold ranging from 5−8 mM, and (d) a constant high-glucose perifusion in a biphasic manner. Moreover, we were able to detect a dysregulated secretion profile in PIs derived from both obese and type 2 diabetes mellitus (T2DM) donors. Finally, we also evaluated the kinetic secretion profiles of HLSC-ILS, demonstrating that, nonetheless, with a lower amplitude of secretion compared to PI derived from healthy donors, they were already glucose-responsive on day seven post-differentiation. In conclusion, we have provided evidence that our MPS is a versatile device and may represent a valuable tool to study insulin-producing cells in vitro.https://www.mdpi.com/2227-9059/8/2/26microfluidicperifusionc-peptidehuman pancreatic isletsobeset2dmhlsc-ils
collection DOAJ
language English
format Article
sources DOAJ
author Yonathan Gomez
Victor Navarro-Tableros
Ciro Tetta
Giovanni Camussi
Maria Felice Brizzi
spellingShingle Yonathan Gomez
Victor Navarro-Tableros
Ciro Tetta
Giovanni Camussi
Maria Felice Brizzi
A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures
Biomedicines
microfluidic
perifusion
c-peptide
human pancreatic islets
obese
t2dm
hlsc-ils
author_facet Yonathan Gomez
Victor Navarro-Tableros
Ciro Tetta
Giovanni Camussi
Maria Felice Brizzi
author_sort Yonathan Gomez
title A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures
title_short A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures
title_full A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures
title_fullStr A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures
title_full_unstemmed A Versatile Model of Microfluidic Perifusion System for the Evaluation of C-Peptide Secretion Profiles: Comparison Between Human Pancreatic Islets and HLSC-Derived Islet-Like Structures
title_sort versatile model of microfluidic perifusion system for the evaluation of c-peptide secretion profiles: comparison between human pancreatic islets and hlsc-derived islet-like structures
publisher MDPI AG
series Biomedicines
issn 2227-9059
publishDate 2020-02-01
description A robust and easy-to-use tool for the ex vivo dynamic evaluation of pancreatic islet (PI) function is essential for further development of novel cell-based therapeutic approaches to treating diabetes. Here, we developed four different glucose perifusion protocols (GPPs) in a microfluidic perifusion system (MPS), based entirely on commercially available components. After validation, the GPPs were used to evaluate C-peptide secretion profiles of PIs derived from different donors (healthy, obese, and type 2 diabetic) and from human liver stem-cell-derived islet-like structures (HLSC-ILS). Using this device, we demonstrated that PIs derived from healthy donors displayed a physiological C-peptide secretion profile as characterized by the response to (a) different glucose concentrations, (b) consecutive pulses of high-glucose concentrations, (c) a glucose threshold ranging from 5−8 mM, and (d) a constant high-glucose perifusion in a biphasic manner. Moreover, we were able to detect a dysregulated secretion profile in PIs derived from both obese and type 2 diabetes mellitus (T2DM) donors. Finally, we also evaluated the kinetic secretion profiles of HLSC-ILS, demonstrating that, nonetheless, with a lower amplitude of secretion compared to PI derived from healthy donors, they were already glucose-responsive on day seven post-differentiation. In conclusion, we have provided evidence that our MPS is a versatile device and may represent a valuable tool to study insulin-producing cells in vitro.
topic microfluidic
perifusion
c-peptide
human pancreatic islets
obese
t2dm
hlsc-ils
url https://www.mdpi.com/2227-9059/8/2/26
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