Litcius/Paper detail

Reducing ischemic kidney injury through application of a synchronization modulation electric field to maintain Na <sup>+</sup> /K <sup>+</sup> -ATPase functions

Wei Chen, Lei Wang, Pengfei Liang, Jason Mast, Clausell Mathis, Catherine Liu, Jin Wei, Jie Zhang, Liying Fu, Luis A. Juncos, Jacentha Buggs, Ruisheng Liu

2022Science Translational Medicine38 citationsDOIOpen Access PDF

Abstract

-ATPase (Na/K pump) dysfunction due to insufficient ATP supply, resulting in subsequent cellular damage. Therefore, strategies that preserve ATP or maintain Na/K pump function may limit the extent of renal injury during ischemia-reperfusion. Here, we applied a synchronization modulation electric field to activate Na/K pumps, thereby maintaining cellular functions under ATP-insufficient conditions. We tested the effectiveness of this technique in two models of ischemic renal injury: an in situ renal ischemia-reperfusion injury model (predominantly warm ischemia) and a kidney transplantation model (predominantly cold ischemia). Application of the synchronization modulation electric field to a renal ischemia-reperfusion injury mouse model preserved Na/K pump activity, thereby reducing kidney injury, as reflected by 40% lower plasma creatinine (1.17 ± 0.03 mg/dl) in the electric field-treated group as compared to the untreated control group (1.89 ± 0.06 mg/dl). In a mouse kidney transplantation model, renal graft function was improved by more than 50% with the application of the synchronization modulation electric field according to glomerular filtration rate measurements (85.40 ± 12.18 μl/min in the untreated group versus 142.80 ± 11.65 μl/min in the electric field-treated group). This technique for preserving Na/K pump function may have therapeutic potential not only for ischemic kidney injury but also for other diseases associated with Na/K pump dysfunction due to inadequate ATP supply.

Topics & Concepts

IschemiaRenal functionKidneyCreatinineReperfusion injuryMedicineRenal ischemiaTransplantationInternal medicineUrologyEndocrinologyIon channel regulation and functionIon Transport and Channel RegulationOrgan Donation and Transplantation
Reducing ischemic kidney injury through application of a synchronization modulation electric field to maintain Na <sup>+</sup> /K <sup>+</sup> -ATPase functions | Litcius