Inhibition of neutrophil extracellular trap formation alleviates vascular dysfunction in type 1 diabetic mice
Chao Liu, Srilakshmi Yalavarthi, Ajay Tambralli, Lixia Zeng, Christine E. Rysenga, Nikoo Alizadeh, Lucas Hudgins, Wenying Liang, Somanathapura K. NaveenKumar, Hui Shi, Miriam A. Shelef, Kevin B. Atkins, Subramaniam Pennathur, Jason S. Knight
Abstract
While neutrophil extracellular traps (NETs) have previously been linked to some diabetes-associated complications, such as dysfunctional wound healing, their potential role in diabetic vascular dysfunction has not been studied. Diabetic Akita mice were crossed with either Elane −/− or Pad4 −/− mice to generate NET-deficient diabetic mice. By 24 weeks of age, Akita aortae showed markedly impaired relaxation in response to acetylcholine, indicative of vascular dysfunction. Both Akita- Elane −/− mice and Akita- Pad4 −/− mice had reduced levels of circulating NETs and improved acetylcholine-mediated aortic relaxation. Compared with wild-type aortae, the thromboxane metabolite TXB 2 was roughly 10-fold higher in both intact and endothelium-denuded aortae of Akita mice. In contrast, Akita- Elane −/− and Akita- Pad4 −/− aortae had TXB 2 levels similar to wild type. In summary, inhibition of NETosis by two independent strategies prevented the development of vascular dysfunction in diabetic Akita mice. Thromboxane was up-regulated in the vessel walls of NETosis-competent diabetic mice, suggesting a role for neutrophils in driving the production of this vasoconstrictive and atherogenic prostanoid.