San-Hua Leng1, Fu-Er Lu. 1. Institute of Integrative Traditional Chinese and Western Medicine, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430030, Hubei Province, China.
Abstract
AIM: To induce the pancreatic duct cells into endocrine cells with a new natural protocol for electrophysiological study. METHODS: The pancreatic duct cells of neonatal rats were isolated, cultured and induced into endocrine cells with 15% fetal bovine serum for a period of 20 d. During this period, insulin secretion, MTT value, and morphological change of neonatal and adult pancreatic islet cells were comparatively investigated. Pancreatic beta-cells were identified by morphological and electrophysiological characteristics, while ATP sensitive potassium channels (K(ATP)), voltage-dependent potassium channels (K(V)), and voltage-dependent calcium channels (K(CA)) in beta-cells were identified by patch clamp technique. RESULTS: After incubation with fetal bovine serum, the neonatal duct cells budded out, changed from duct-like cells into islet clusters. In the first 4 d, MTT value and insulin secretion increased slowly (MTT value from 0.024+/-0.003 to 0.028+/-0.003, insulin secretion from 2.6+/-0.6 to 3.1+/-0.8 mIU/L). Then MTT value and insulin secretion increased quickly from d 5 to d 10 (MTT value from 0.028+/-0.003 to 0.052+/-0.008, insulin secretion from 3.1+/-0.8 to 18.3+/-2.6 mIU/L), then reached high plateau (MTT value >0.052+/-0.008, insulin secretion >18.3+/-2.6 mIU/L). In contrast, for the isolated adult pancreatic islet cells, both insulin release and MTT value were stable in the first 4 d (MTT value from 0.029+/-0.01 to 0.031+/-0.011, insulin secretion from 13.9+/-3.1 to 14.3+/-3.3 mIU/L), but afterwards they reduced gradually (MTT value <0.031+/-0.011, insulin secretion <8.2+/-1.5 mIU/L), and the pancreatic islet cells became dispersed, broken or atrophied correspondingly. The differentiated neonatal cells were identified as pancreatic islet cells by dithizone staining method, and pancreatic beta-cells were further identified by both morphological features and electrophysiological characteristics, i.e. the existence of recording currents from K(ATP), K(V), and K(CA). CONCLUSION: Islet cells differentiated from neonatal pancreatic duct cells with the new natural protocol are more advantageous in performing patch clamp study over the isolated adult pancreatic islet cells.
AIM: To induce the pancreatic duct cells into endocrine cells with a new natural protocol for electrophysiological study. METHODS: The pancreatic duct cells of neonatal rats were isolated, cultured and induced into endocrine cells with 15% fetal bovine serum for a period of 20 d. During this period, insulin secretion, MTT value, and morphological change of neonatal and adult pancreatic islet cells were comparatively investigated. Pancreatic beta-cells were identified by morphological and electrophysiological characteristics, while ATP sensitive potassium channels (K(ATP)), voltage-dependent potassium channels (K(V)), and voltage-dependent calcium channels (K(CA)) in beta-cells were identified by patch clamp technique. RESULTS: After incubation with fetal bovine serum, the neonatal duct cells budded out, changed from duct-like cells into islet clusters. In the first 4 d, MTT value and insulin secretion increased slowly (MTT value from 0.024+/-0.003 to 0.028+/-0.003, insulin secretion from 2.6+/-0.6 to 3.1+/-0.8 mIU/L). Then MTT value and insulin secretion increased quickly from d 5 to d 10 (MTT value from 0.028+/-0.003 to 0.052+/-0.008, insulin secretion from 3.1+/-0.8 to 18.3+/-2.6 mIU/L), then reached high plateau (MTT value >0.052+/-0.008, insulin secretion >18.3+/-2.6 mIU/L). In contrast, for the isolated adult pancreatic islet cells, both insulin release and MTT value were stable in the first 4 d (MTT value from 0.029+/-0.01 to 0.031+/-0.011, insulin secretion from 13.9+/-3.1 to 14.3+/-3.3 mIU/L), but afterwards they reduced gradually (MTT value <0.031+/-0.011, insulin secretion <8.2+/-1.5 mIU/L), and the pancreatic islet cells became dispersed, broken or atrophied correspondingly. The differentiated neonatal cells were identified as pancreatic islet cells by dithizone staining method, and pancreatic beta-cells were further identified by both morphological features and electrophysiological characteristics, i.e. the existence of recording currents from K(ATP), K(V), and K(CA). CONCLUSION: Islet cells differentiated from neonatal pancreatic duct cells with the new natural protocol are more advantageous in performing patch clamp study over the isolated adult pancreatic islet cells.
Authors: K H Yoon; R R Quickel; K Tatarkiewicz; T R Ulrich; J Hollister-Lock; N Trivedi; S Bonner-Weir; G C Weir Journal: Cell Transplant Date: 1999 Nov-Dec Impact factor: 4.064