In vivo misfolding of proinsulin below the threshold of frank diabetes

I Hodish, A Absood, L Liu, M Liu, L Haataja, D Larkin… - Diabetes, 2011 - Am Diabetes Assoc
I Hodish, A Absood, L Liu, M Liu, L Haataja, D Larkin, A Al-Khafaji, A Zaki, P Arvan
Diabetes, 2011Am Diabetes Assoc
OBJECTIVE Endoplasmic reticulum (ER) stress has been described in pancreatic β-cells
after onset of diabetes—a situation in which failing β-cells have exhausted available
compensatory mechanisms. Herein we have compared two mouse models expressing
equally small amounts of transgenic proinsulin in pancreatic β-cells. RESEARCH DESIGN
AND METHODS In hProCpepGFP mice, human proinsulin (tagged with green fluorescent
protein [GFP] within the connecting [C]-peptide) is folded in the ER, exported, converted to …
OBJECTIVE
Endoplasmic reticulum (ER) stress has been described in pancreatic β-cells after onset of diabetes—a situation in which failing β-cells have exhausted available compensatory mechanisms. Herein we have compared two mouse models expressing equally small amounts of transgenic proinsulin in pancreatic β-cells.
RESEARCH DESIGN AND METHODS
In hProCpepGFP mice, human proinsulin (tagged with green fluorescent protein [GFP] within the connecting [C]-peptide) is folded in the ER, exported, converted to human insulin, and secreted. In hProC(A7)Y-CpepGFP mice, misfolding of transgenic mutant proinsulin causes its retention in the ER. Analysis of neonatal pancreas in both transgenic animals shows each β-cell stained positively for endogenous insulin and transgenic protein.
RESULTS
At this transgene expression level, most male hProC(A7)Y-CpepGFP mice do not develop frank diabetes, yet the misfolded proinsulin perturbs insulin production from endogenous proinsulin and activates ER stress response. In nondiabetic adult hProC(A7)Y-CpepGFP males, all β-cells continue to abundantly express transgene mRNA. Remarkably, however, a subset of β-cells in each islet becomes largely devoid of endogenous insulin, with some of these cells accumulating large quantities of misfolded mutant proinsulin, whereas another subset of β-cells has much less accumulated misfolded mutant proinsulin, with some of these cells containing abundant endogenous insulin.
CONCLUSIONS
The results indicate a source of pancreatic compensation before the development of diabetes caused by proinsulin misfolding with ER stress, i.e., the existence of an important subset of β-cells with relatively limited accumulation of misfolded proinsulin protein and maintenance of endogenous insulin production. Generation and maintenance of such a subset of β-cells may have implications in the avoidance of type 2 diabetes.
Am Diabetes Assoc