TY - JOUR
T1 - Sulfonylurea receptor knockout causes glucose intolerance in mice that is not alleviated by concomitant somatostatin subtype receptor 5 knockout
AU - Norman, Michael
AU - Moldovan, Stefan
AU - Seghers, Victor
AU - Wang, Xiao Ping
AU - DeMayo, Francesco J.
AU - Brunicardi, F. Charles
PY - 2002
Y1 - 2002
N2 - Objective: To examine the long-term effects of Sur KO, SSTR5 KO, and double Sur/SSTR5 KO on insulin secretion and glucose regulation. Summary Background Data: The sulfonylurea receptor (Sur) and somatostatin receptor type 5 (SSTR5) play an integral role in the regulatory pathways of the endocrine pancreas. Sur knockout (KO) and SSTR5 KO mice were generated in the authors' laboratories and cross-bred to generate Sur/SSTR5 KO mice. All mice were geno-typed by Southern blotting and polymerase chain reaction analysis. Methods: One-year-old Sur KO, Sur/SSTR5 KO, SSTR5 KO, and age-matched wild-type control mice underwent single-pass perfusion of isolated pancreata with low and high glucose concentration (n = 4-6/group). Another group of mice also underwent intraperitoneal glucose tolerance tests with 1.2 g glucose/kg body weight (n = 4/group per time point). Results: Sur1 KO and Sur/SSTR5 KO mice had profoundly decreased insulin secretion in vitro, whereas SSTR5 KO had increased insulin secretion compared with wild-type mice. Sur1 KO and Sur/SSTR5 mice had increased glucose response in vivo compared with wild-type mice. Sur1 KO and Sur/SSTR5 KO mice exhibit glucose intolerance and SSTR5 KO mice show increased insulin response in vitro. Conclusions: Sur1 KO causes glucose intolerance and SSTR5 KO causes increased insulin secretion. However, Sur/SSTR5 double ablation does not alleviate the diabetic state of the Sur1 KO.
AB - Objective: To examine the long-term effects of Sur KO, SSTR5 KO, and double Sur/SSTR5 KO on insulin secretion and glucose regulation. Summary Background Data: The sulfonylurea receptor (Sur) and somatostatin receptor type 5 (SSTR5) play an integral role in the regulatory pathways of the endocrine pancreas. Sur knockout (KO) and SSTR5 KO mice were generated in the authors' laboratories and cross-bred to generate Sur/SSTR5 KO mice. All mice were geno-typed by Southern blotting and polymerase chain reaction analysis. Methods: One-year-old Sur KO, Sur/SSTR5 KO, SSTR5 KO, and age-matched wild-type control mice underwent single-pass perfusion of isolated pancreata with low and high glucose concentration (n = 4-6/group). Another group of mice also underwent intraperitoneal glucose tolerance tests with 1.2 g glucose/kg body weight (n = 4/group per time point). Results: Sur1 KO and Sur/SSTR5 KO mice had profoundly decreased insulin secretion in vitro, whereas SSTR5 KO had increased insulin secretion compared with wild-type mice. Sur1 KO and Sur/SSTR5 mice had increased glucose response in vivo compared with wild-type mice. Sur1 KO and Sur/SSTR5 KO mice exhibit glucose intolerance and SSTR5 KO mice show increased insulin response in vitro. Conclusions: Sur1 KO causes glucose intolerance and SSTR5 KO causes increased insulin secretion. However, Sur/SSTR5 double ablation does not alleviate the diabetic state of the Sur1 KO.
UR - http://www.scopus.com/inward/record.url?scp=0036109013&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=0036109013&partnerID=8YFLogxK
U2 - 10.1097/00000658-200206000-00003
DO - 10.1097/00000658-200206000-00003
M3 - Article
C2 - 12035032
AN - SCOPUS:0036109013
SN - 0003-4932
VL - 235
SP - 767
EP - 774
JO - Annals of surgery
JF - Annals of surgery
IS - 6
ER -