Development of a pancreas-liver organ-on-chip coculture model for organ-to-organ interaction studies

•Pancreas-liver organ-on-chip model was developed using rat islets and hepatocytes.•The model was characterized by comparison with islets and hepatocytes monocultures.•Liver monoculture without insulin impaired cytochrome P3A2 and albumin activities.•Insulin secreted by islets restored liver functio...

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Published inBiochemical engineering journal Vol. 164; p. 107783
Main Authors Essaouiba, Amal, Okitsu, Teru, Kinoshita, Rie, Jellali, Rachid, Shinohara, Marie, Danoy, Mathieu, Legallais, Cécile, Sakai, Yasuyuki, Leclerc, Eric
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.12.2020
Elsevier
Subjects
Coculture
Diabetes
Glucose homeostasis
Hepatocytes
Islets of Langerhans
Life Sciences
Organ-on-chip
Coculture
Islets of Langerhans
Diabetes
Hepatocytes
Glucose homeostasis
Organ-on-chip
glucose homeostasis
coculture
microfluidic biochips
hepatocytes
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Abstract •Pancreas-liver organ-on-chip model was developed using rat islets and hepatocytes.•The model was characterized by comparison with islets and hepatocytes monocultures.•Liver monoculture without insulin impaired cytochrome P3A2 and albumin activities.•Insulin secreted by islets restored liver functions in the coculture model. Type 2 diabetes mellitus (T2DM) is a widespread chronic disease with a high prevalence of comorbidity and mortality. The exponential increase of TD2M represents an important public health challenge and leads a strong demand for the development of relevant in vitro models to improve mechanistic understanding of diabetes and identify new anti-diabetic drugs and therapies. These models involve considering the multi-organ characteristic of T2DM. The organ-on-chip technology has made it possible to connect several organs thanks to dedicated microbioreactors interconnected by microfluidic network. Here, we developed pancreas-liver coculture model in a microfluidic biochip, using rat islets of Langerhans and hepatocytes. The behavior and functionality of the model were compared to islets and hepatocytes (with/without insulin) monocultures. Compared to monoculture, the islets coculture presented high C-peptide and insulin secretions, and downregulation of Pdx1, Glut2, App, Ins1, Neurod, Neurog3 and Gcgr genes. In the hepatic compartment, the monocultures without insulin were negative to CK18 staining and displayed a weaker albumin production, compared to monoculture with insulin. The hepatocytes cocultures were highly positive to INSR, GLUT2, CK18 and CYP3A2 immunostaining and allowed to recover mRNA levels similar to monocultures with insulin. The result showed that islets could produce insulin to supplement the culture medium and recover hepatic functionality. This model illustrated the potential of organ-on-chip technology for reproducing crosstalk between liver and pancreas.
AbstractList •Pancreas-liver organ-on-chip model was developed using rat islets and hepatocytes.•The model was characterized by comparison with islets and hepatocytes monocultures.•Liver monoculture without insulin impaired cytochrome P3A2 and albumin activities.•Insulin secreted by islets restored liver functions in the coculture model. Type 2 diabetes mellitus (T2DM) is a widespread chronic disease with a high prevalence of comorbidity and mortality. The exponential increase of TD2M represents an important public health challenge and leads a strong demand for the development of relevant in vitro models to improve mechanistic understanding of diabetes and identify new anti-diabetic drugs and therapies. These models involve considering the multi-organ characteristic of T2DM. The organ-on-chip technology has made it possible to connect several organs thanks to dedicated microbioreactors interconnected by microfluidic network. Here, we developed pancreas-liver coculture model in a microfluidic biochip, using rat islets of Langerhans and hepatocytes. The behavior and functionality of the model were compared to islets and hepatocytes (with/without insulin) monocultures. Compared to monoculture, the islets coculture presented high C-peptide and insulin secretions, and downregulation of Pdx1, Glut2, App, Ins1, Neurod, Neurog3 and Gcgr genes. In the hepatic compartment, the monocultures without insulin were negative to CK18 staining and displayed a weaker albumin production, compared to monoculture with insulin. The hepatocytes cocultures were highly positive to INSR, GLUT2, CK18 and CYP3A2 immunostaining and allowed to recover mRNA levels similar to monocultures with insulin. The result showed that islets could produce insulin to supplement the culture medium and recover hepatic functionality. This model illustrated the potential of organ-on-chip technology for reproducing crosstalk between liver and pancreas.
Advances in organ-on-chip technology allowed the recapitulation of two or more organs interaction thanks to dedicated microbioreactors interconnected by microfluidic network. Here, we developed pancreas-liver coculture model in a microfluidic biochip, using rat Langerhans islets and hepatocytes. The behavior and functionality of the model were compared to islets and hepatocytes (with/without insulin) monocultures. We confirmed the insulin, glucagon and C-peptide secretions by islets monoculture and coculture. Furthermore, C-peptide and insulin secretions were higher in coculture after 5 days of culture. The islets coculture presented downregulation of Pdx1, Glut2, Gcg, App, Ins1, Neurod, Neurog3 and Gcgr genes, compared to monocultures. In hepatic compartment, the monocultures without insulin were negative to CK18 staining and displayed a weaker production of albumin when compared to monocultures with insulin. They also presented a moderate protein expression of CYP3A2, GLUT2, INSR and modulation of several hepatic genes. In coculture model, hepatocytes displayed albumin productions similar to those in monoculture with insulin. The hepatocytes cocultures were highly positive to INSR, GLUT2, CK18 and CYP3A2 immunostaining and allowed to recover mRNA levels similar to monoculture with insulin (Gcgr, Insr, Hnf4a, Igfbp1 and Alb). The result illustrated that islets can produce insulin to supplement the culture medium and recover hepatic functionality. We believe that our model illustrated the potential of organ-on-chip technology to reproduce cross-talk between liver and pancreas.
ArticleNumber 107783
Author Shinohara, Marie
Essaouiba, Amal
Danoy, Mathieu
Kinoshita, Rie
Okitsu, Teru
Legallais, Cécile
Sakai, Yasuyuki
Jellali, Rachid
Leclerc, Eric
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  givenname: Teru
  surname: Okitsu
  fullname: Okitsu, Teru
  organization: Institute of Industrial Science, University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo, Japan
– sequence: 3
  givenname: Rie
  surname: Kinoshita
  fullname: Kinoshita, Rie
  organization: Institute of Industrial Science, University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo, Japan
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  givenname: Rachid
  orcidid: 0000-0002-0925-0298
  surname: Jellali
  fullname: Jellali, Rachid
  organization: Université de technologie de Compiègne, CNRS, Biomechanics and Bioengineering, Centre de recherche Royallieu CS 60319, 60203, Compiègne Cedex, France
– sequence: 5
  givenname: Marie
  surname: Shinohara
  fullname: Shinohara, Marie
  organization: Institute of Industrial Science, University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo, Japan
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  givenname: Mathieu
  orcidid: 0000-0003-3399-2301
  surname: Danoy
  fullname: Danoy, Mathieu
  organization: CNRS UMI 2820, Laboratory for Integrated Micro Mechatronic Systems, Institute of Industrial Science, University of Tokyo, 4-6-1 Komaba, Meguro-ku, Tokyo, Japan
– sequence: 7
  givenname: Cécile
  surname: Legallais
  fullname: Legallais, Cécile
  organization: Université de technologie de Compiègne, CNRS, Biomechanics and Bioengineering, Centre de recherche Royallieu CS 60319, 60203, Compiègne Cedex, France
– sequence: 8
  givenname: Yasuyuki
  surname: Sakai
  fullname: Sakai, Yasuyuki
  organization: Department of Chemical Engineering, Faculty of Engineering, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, Japan
– sequence: 9
  givenname: Eric
  surname: Leclerc
  fullname: Leclerc, Eric
  email: eleclerc@iis.u-tokyo.ac.jp, eric.leclerc@utc.fr
  organization: Université de technologie de Compiègne, CNRS, Biomechanics and Bioengineering, Centre de recherche Royallieu CS 60319, 60203, Compiègne Cedex, France
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Keywords Coculture
Islets of Langerhans
Diabetes
Hepatocytes
Glucose homeostasis
Organ-on-chip
glucose homeostasis
coculture
microfluidic biochips
hepatocytes
Language English
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Snippet •Pancreas-liver organ-on-chip model was developed using rat islets and hepatocytes.•The model was characterized by comparison with islets and hepatocytes...
Advances in organ-on-chip technology allowed the recapitulation of two or more organs interaction thanks to dedicated microbioreactors interconnected by...
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StartPage 107783
SubjectTerms Coculture
Diabetes
Glucose homeostasis
Hepatocytes
Islets of Langerhans
Life Sciences
Organ-on-chip
Title Development of a pancreas-liver organ-on-chip coculture model for organ-to-organ interaction studies
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