AIMS/HYPOTHESIS: Diabetic macro- and microangiopathy are associated with a high risk of vascular complications. The diabetic patient exhibits a pathological coagulation state, with an increased synthesis of coagulation factors and plasminogen activator inhibitor 1 (PAI-1) as well as an enhanced aggregation of platelets. Previous studies have shown that C-peptide can reduce leucocyte-endothelial cell interaction and improve microvascular blood flow in patients with type 1 diabetes. In the present study, we examined in vivo whether C-peptide is able to reduce platelet activation and through that microvascular thrombus formation. MATERIALS AND METHODS: In the microvessels of cremaster muscle preparations taken from normal and diabetic mice, ferric chloride-induced thrombus formation was analysed using intravital fluorescence microscopy. RESULTS: I.V. administration of C-peptide in high dose (70 nmol/kg), but not in low dose (7 nmol/kg), caused a significant delay in arteriolar and venular thrombus growth in normal and diabetic mice. This effect was repressed by cremaster muscle superfusion with insulin (100 microU/ml) in diabetic animals, but particularly in normal animals. In parallel, immunohistochemistry demonstrated a higher number of PAI-1-expressing vessels in cremaster muscle tissue from control animals and from animals treated with C-peptide and insulin compared with tissue from animals with C-peptide treatment application alone. CONCLUSIONS/ INTERPRETATION: We conclude that C-peptide possesses antithrombotic actions in vivo. A causal role of PAI-1 in this scenario needs to be further addressed. However, the reversal of C-peptide action by insulin may invalidate the use of this peptide as a treatment option to improve rheology and microcirculation in diabetic patients.
AIMS/HYPOTHESIS: Diabetic macro- and microangiopathy are associated with a high risk of vascular complications. The diabeticpatient exhibits a pathological coagulation state, with an increased synthesis of coagulation factors and plasminogen activator inhibitor 1 (PAI-1) as well as an enhanced aggregation of platelets. Previous studies have shown that C-peptide can reduce leucocyte-endothelial cell interaction and improve microvascular blood flow in patients with type 1 diabetes. In the present study, we examined in vivo whether C-peptide is able to reduce platelet activation and through that microvascular thrombus formation. MATERIALS AND METHODS: In the microvessels of cremaster muscle preparations taken from normal and diabeticmice, ferric chloride-induced thrombus formation was analysed using intravital fluorescence microscopy. RESULTS: I.V. administration of C-peptide in high dose (70 nmol/kg), but not in low dose (7 nmol/kg), caused a significant delay in arteriolar and venular thrombus growth in normal and diabeticmice. This effect was repressed by cremaster muscle superfusion with insulin (100 microU/ml) in diabetic animals, but particularly in normal animals. In parallel, immunohistochemistry demonstrated a higher number of PAI-1-expressing vessels in cremaster muscle tissue from control animals and from animals treated with C-peptide and insulin compared with tissue from animals with C-peptide treatment application alone. CONCLUSIONS/ INTERPRETATION: We conclude that C-peptide possesses antithrombotic actions in vivo. A causal role of PAI-1 in this scenario needs to be further addressed. However, the reversal of C-peptide action by insulin may invalidate the use of this peptide as a treatment option to improve rheology and microcirculation in diabeticpatients.
Authors: Y Ido; A Vindigni; K Chang; L Stramm; R Chance; W F Heath; R D DiMarchi; E Di Cera; J R Williamson Journal: Science Date: 1997-07-25 Impact factor: 47.728
Authors: Charlene E Hafer-Macko; Frederick M Ivey; Kymberly A Gyure; John D Sorkin; Richard F Macko Journal: Diabetes Date: 2002-06 Impact factor: 9.461
Authors: Tatiana E Suslova; Alexei V Sitozhevskii; Oksana N Ogurkova; Elena S Kravchenko; Irina V Kologrivova; Yana Anfinogenova; Rostislav S Karpov Journal: Front Physiol Date: 2015-01-05 Impact factor: 4.566