Author
Listed:
- Kyu Shik Mun
(Cincinnati Children’s Hospital Medical Center)
- Kavisha Arora
(Cincinnati Children’s Hospital Medical Center)
- Yunjie Huang
(Cincinnati Children’s Hospital Medical Center)
- Fanmuyi Yang
(Cincinnati Children’s Hospital Medical Center)
- Sunitha Yarlagadda
(Cincinnati Children’s Hospital Medical Center)
- Yashaswini Ramananda
(Cincinnati Children’s Hospital Medical Center
University of Illinois)
- Maisam Abu-El-Haija
(Cincinnati Children’s Hospital Medical Center
University of Cincinnati)
- Joseph J. Palermo
(Cincinnati Children’s Hospital Medical Center
University of Cincinnati)
- Balamurugan N. Appakalai
(University of Louisville)
- Jaimie D. Nathan
(Cincinnati Children’s Hospital Medical Center)
- Anjaparavanda P. Naren
(Cincinnati Children’s Hospital Medical Center)
Abstract
Cystic fibrosis (CF) is a genetic disorder caused by defective CF Transmembrane Conductance Regulator (CFTR) function. Insulin producing pancreatic islets are located in close proximity to the pancreatic duct and there is a possibility of impaired cell-cell signaling between pancreatic ductal epithelial cells (PDECs) and islet cells as causative in CF. To study this possibility, we present an in vitro co-culturing system, pancreas-on-a-chip. Furthermore, we present an efficient method to micro dissect patient-derived human pancreatic ducts from pancreatic remnant cell pellets, followed by the isolation of PDECs. Here we show that defective CFTR function in PDECs directly reduced insulin secretion in islet cells significantly. This uniquely developed pancreatic function monitoring tool will help to study CF-related disorders in vitro, as a system to monitor cell-cell functional interaction of PDECs and pancreatic islets, characterize appropriate therapeutic measures and further our understanding of pancreatic function.
Suggested Citation
Kyu Shik Mun & Kavisha Arora & Yunjie Huang & Fanmuyi Yang & Sunitha Yarlagadda & Yashaswini Ramananda & Maisam Abu-El-Haija & Joseph J. Palermo & Balamurugan N. Appakalai & Jaimie D. Nathan & Anjapar, 2019.
"Patient-derived pancreas-on-a-chip to model cystic fibrosis-related disorders,"
Nature Communications, Nature, vol. 10(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11178-w
DOI: 10.1038/s41467-019-11178-w
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