TY - JOUR
T1 - The role of nitric oxide in il-1/β-mediated dysfunction of rodent islets of langerhans
T2 - Implications for the function of intrahepatic islet grafts
AU - Xenos, Eleftherios S.
AU - Brian Stevens, R.
AU - Sutherland, David E.R.
AU - Lokeh, Adam
AU - Ansite, Jeffrey D.
AU - Casanova, Daniel
AU - Gores, Paul F.
AU - Platt, Jeffrey L.
N1 - Copyright:
Copyright 2018 Elsevier B.V., All rights reserved.
PY - 1994/4
Y1 - 1994/4
N2 - Products of inflammation, such as interleukin 1β (IL-1β) and nitric oxide (NO), may impair early function of pancreatic islet grafts. In in vitro studies, freshly isolated rat islets of Langerhans cultured for 24 hr (10 islets/well) in the presence of 20 IU/ml of IL-1β released 57% less insulin (mean ± S.E. of 151 ±61 μU) on the average than control (385 ±89 μU) cultures (n=9, P=0.08). Nitrite levels in the medium (indirect measure of NO) after islets were cultured for a 24-hr period were nearly 3-fold greater in IL-l/β-exposed islets than control islet cultures (5.8±1.0 μM vs. 2.2±0.3 μM, P=0.03). Production of nitrite by islet cells in the presence of IL-β was inhibited in cultures also containing 2 mM L-NG-monomethyl-Arginine (L-NMMA) (3.4±0.4 μM, n=9, P=0.09 vs. control). When islets were maintained for 1 hr in 30 mg/dl glucose followed by 300 mg/dl for 1 hr, insulin release (stimulated) increased 6-fold (from 7±2 to 45±11 μU) in control cultures but only 3-fold (from 4±2 to 12±4 μU) in IL-1β-exposed cultures (n=9, P=.01). Addition of 2 mM L-NMMA to islet cultures in the presence of IL-β (20 IU/ml) (n=9) restored insulin release to normal (from 6±2 to 38±9 μU, P≥0.6), suggesting that NO mediates the inhibitory effect of IL-1β on beta-cell function. In in vivo studies, rats with streptozotocin-induced diabetes (blood glucose >400 mg/dl) received minimal (750 hand-picked islets) intraportal beta cell mass isografts with (n=5) or without (n=9) treatment with 100 mg/7 days of L-NMMA from 3 days before transplantation to 4 days after transplantation (POD -3 to +4). L-NMMA- treated rats became euglycemic (glucose <200 mg/dl) earlier than nontreated rats (mean ± SD of 6.4 ±2.5 vs. 16.7±4.7 days posttransplant, P=0.001). These findings support the hypothesis that NO is a mediator of beta cell dysfunction after intraportal transplantation of freshly isolated islets of Langerhans.
AB - Products of inflammation, such as interleukin 1β (IL-1β) and nitric oxide (NO), may impair early function of pancreatic islet grafts. In in vitro studies, freshly isolated rat islets of Langerhans cultured for 24 hr (10 islets/well) in the presence of 20 IU/ml of IL-1β released 57% less insulin (mean ± S.E. of 151 ±61 μU) on the average than control (385 ±89 μU) cultures (n=9, P=0.08). Nitrite levels in the medium (indirect measure of NO) after islets were cultured for a 24-hr period were nearly 3-fold greater in IL-l/β-exposed islets than control islet cultures (5.8±1.0 μM vs. 2.2±0.3 μM, P=0.03). Production of nitrite by islet cells in the presence of IL-β was inhibited in cultures also containing 2 mM L-NG-monomethyl-Arginine (L-NMMA) (3.4±0.4 μM, n=9, P=0.09 vs. control). When islets were maintained for 1 hr in 30 mg/dl glucose followed by 300 mg/dl for 1 hr, insulin release (stimulated) increased 6-fold (from 7±2 to 45±11 μU) in control cultures but only 3-fold (from 4±2 to 12±4 μU) in IL-1β-exposed cultures (n=9, P=.01). Addition of 2 mM L-NMMA to islet cultures in the presence of IL-β (20 IU/ml) (n=9) restored insulin release to normal (from 6±2 to 38±9 μU, P≥0.6), suggesting that NO mediates the inhibitory effect of IL-1β on beta-cell function. In in vivo studies, rats with streptozotocin-induced diabetes (blood glucose >400 mg/dl) received minimal (750 hand-picked islets) intraportal beta cell mass isografts with (n=5) or without (n=9) treatment with 100 mg/7 days of L-NMMA from 3 days before transplantation to 4 days after transplantation (POD -3 to +4). L-NMMA- treated rats became euglycemic (glucose <200 mg/dl) earlier than nontreated rats (mean ± SD of 6.4 ±2.5 vs. 16.7±4.7 days posttransplant, P=0.001). These findings support the hypothesis that NO is a mediator of beta cell dysfunction after intraportal transplantation of freshly isolated islets of Langerhans.
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U2 - 10.1097/00007890-199404270-00012
DO - 10.1097/00007890-199404270-00012
M3 - Article
C2 - 8178348
AN - SCOPUS:0028271718
SN - 0041-1337
VL - 57
SP - 1208
EP - 1212
JO - Transplantation
JF - Transplantation
IS - 8
ER -