Original Article
Sustained local inhibition of thrombin preserves renal microarchitecture and function after onset of acute kidney injury

https://doi.org/10.1016/j.nano.2021.102449Get rights and content
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Highlights

  • Renal vessel injury is one of the determinants of acute kidney injury.

  • Thrombosis and inflammation play critical roles in renal vessel injury.

  • Currently, treatments for acute kidney injury remain supportive.

  • Anti-thrombosis and anti-inflammation nanoparticles preserve renal vasculature.

  • Anti-thrombosis and anti-inflammation nanoparticles protect renal function.

Abstract

Acute kidney injury (AKI) management remains mainly supportive as no specific therapeutic agents directed at singular signaling pathways have succeeded in clinical trials. Here, we report that inhibition of thrombin-driven clotting and inflammatory signaling with use of locally-acting thrombin-targeted perfluorocarbon nanoparticles (PFC NP) protects renal vasculature and broadly modulates diverse inflammatory processes that cause renal ischemia reperfusion injury. Each PFC NP was complexed with ~13,650 copies of the direct thrombin inhibitor, PPACK (proline-phenylalanine-arginine-chloromethyl-ketone). Mice treated after the onset of AKI with PPACK PFC NP exhibited downregulated VCAM-1, ICAM-1, PGD2 prostanoid, M-CSF, IL-6, and mast cell infiltrates. Microvascular architecture, tubular basement membranes, and brush border components were better preserved. Non-reperfusion was reduced as indicated by reduced red blood cell trapping and non-heme iron. Kidney function and tubular necrosis improved at 24 hours versus the untreated control group, suggesting a benefit for dual inhibition of thrombosis and inflammation by PPACK PFC NP.

Graphical Abstract

PPACK perfluorocarbon (PFC) nanoparticles were evaluated for the efficacy for treating acute kidney injury after its onset, of which there is no effective treatment yet. The PPACK PFC nanoparticles form anti-coagulation surface locally in the injured vessels in the kidney and serve as thrombin sponge to inhibit thrombosis and the subsequent ischemia caused vessel damage as well as thrombin activated inflammatory signaling. Our study demonstrated that simultaneously inhibiting thrombosis and inflammation by systemic injection of these nanoparticles preserved renal vasculature and microstructure, consequently protecting kidney function.

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Key words

Acute kidney injury
Thrombosis
Inflammation
Perfluorocarbon nanoparticles
Vessel damage

Cited by (0)

Conflict of Interest: None.

This study was supported by the National Institutes of Health [DK102691 (SAW), AR067491(SAW), HL073646(SAW), HL125353(CEC), HD087198(CEC), AI139072(CEC), DK125322 (HP)]; and the Veteran's Administration [I BX001792 (CEC), 13F-RCS-002 (CEC)].

Disclosures

None.

© 2021 The Author(s). Published by Elsevier Inc.