Sooyeon Kim scite author profile

Renal ischemia-reperfusion (IR) injury is an inevitable complication in various clinical settings including kidney transplantation and major vascular surgeries. Renal IR injury is a major risk factor for acute kidney injury, which still remains a major clinical challenge without effective therapy. The main cause of renal IR injury is the massive production of reactive oxygen species (ROS) including hydrogen peroxide (H2O2) that initiate inflammatory signaling pathways, leading to renal cell death. In this study, we developed fucoidan-coated polymeric prodrug (Fu-PVU73) nanoparticles as renal IR-targeting nanotherapeutics that can rapidly eliminate H2O2 and exert anti-inflammatory and antiapoptotic effects. Fu-PVU73 nanoparticles were composed of H2O2-activatable antioxidant and anti-inflammatory polymeric prodrug (PVU73) that incorporated H2O2-responsive peroxalate linkages, ursodeoxycholic acid (UDCA), and vanillyl alcohol (VA) in its backbone. Fu-PVU73 nanoparticles rapidly scavenged H2O2 and released UDCA and VA during H2O2-triggered degradation. In the study of renal IR injury mouse models, Fu-PVU73 nanoparticles preferentially accumulated in the IR injury-induced kidney and markedly protected the kidney from IR injury by suppressing the generation of ROS and the expression of proinflammatory cytokines. We anticipate that Fu-PVU73 nanoparticles have tremendous therapeutic potential for not only renal IR injury but also various ROS-associated inflammatory diseases.

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Clot-Targeted Antithrombotic Liposomal Nanomedicine Containing High Content of H₂O₂-Activatable Hybrid Prodrugs

Jeon

Jun

Kim

et al. 2023

ACS Appl. Mater. Interfaces

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Liposomes have been extensively explored as drug carriers, but their clinical translation has been hampered by their low drug-loading content and premature leakage of drug payloads. It was reasoned that vesicle-forming prodrugs could be incorporated into the lipid bilayer at a high molar fraction and therefore serve as a therapeutic agent as well as a structural component in liposomal nanomedicine. Boronated retinoic acid (BORA) was developed as a prodrug, which can self-assemble with common lipids to form liposomes at a high molar fraction (40%) and release all-trans retinoic acid (atRA) and hydroxybenzyl alcohol (HBA) simultaneously, in response to hydrogen peroxide (H2O2). Here, we report fucoidan-coated BORA-incorporated liposomes (f-BORALP) as clot-targeted antithrombotic liposomal nanomedicine with H2O2-triggered multiple therapeutic actions. In the mouse model of carotid arterial thrombosis, f-BORALP preferentially accumulated in the injured blood vessel and significantly suppressed thrombus formation, demonstrating their potential as targeted antithrombotic nanomedicine. This study also provides valuable insight into the development of vesicle-forming and self-immolative prodrugs to exploit the benefits of liposomal drug delivery.

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Nanoassemblies of Self-Immolative Boronate-Bridged Retinoic Acid Dimeric Prodrug as a Clot-Targeted Self-Deliverable Antithrombotic Nanomedicine

et al. 2023

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All trans-retinoic acid (atRA) has potent antiinflammatory and antiplatelet activity, but its clinical translation as an antithrombotic drug has been hampered by its low therapeutic efficacy. Here, we describe a facile and elegant strategy that converts atRA into systemically injectable antithrombotic nanoparticles. The strategy involves the dimerization of two atRA molecules using a self-immolative boronate linker that is cleaved specifically by hydrogen peroxide (H 2 O 2 ) to release anti-inflammatory hydroxybenzyl alcohol (HBA), followed by dimerization-induced self-assembly to generate colloidally stable nanoparticles. The boronated atRA dimeric prodrug (BRDP) could form injectable nanoparticles in the presence of fucoidan that serves as an emulsifier and a targeting ligand to P-selectin overexpressed on the damaged endothelium. In response to H 2 O 2 , fucoidan-decorated BRDP (f-BRDP) nanoassemblies dissociate to release both atRA and HBA, while scavenging H 2 O 2 . In a mouse model of ferric chloride (FeCl 3 )-induced carotid arterial thrombosis, f-BRDP nanoassemblies target the thrombosed vessel and significantly inhibit thrombus formation. The results demonstrate that dimerization of atRA molecules via a boronate linker enables the formation of stable nanoassemblies with several benefits: high drug loading, drug self-delivery, on-demand multiple antithrombotic actions, and simple fabrication of nanoparticles. Overall, this strategy provides a promising expedient and practical route for the development of translational self-deliverable antithrombotic nanomedicine.

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Sooyeon Kim

H₂O₂-Activatable Antioxidant Polymeric Prodrug Nanoparticles for the Prevention of Renal Ischemia/Reperfusion Injury

Clot-Targeted Antithrombotic Liposomal Nanomedicine Containing High Content of H₂O₂-Activatable Hybrid Prodrugs

Nanoassemblies of Self-Immolative Boronate-Bridged Retinoic Acid Dimeric Prodrug as a Clot-Targeted Self-Deliverable Antithrombotic Nanomedicine

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Sooyeon Kim

H2O2-Activatable Antioxidant Polymeric Prodrug Nanoparticles for the Prevention of Renal Ischemia/Reperfusion Injury

Clot-Targeted Antithrombotic Liposomal Nanomedicine Containing High Content of H2O2-Activatable Hybrid Prodrugs

Nanoassemblies of Self-Immolative Boronate-Bridged Retinoic Acid Dimeric Prodrug as a Clot-Targeted Self-Deliverable Antithrombotic Nanomedicine

Contact Info

Product

Resources

About

H₂O₂-Activatable Antioxidant Polymeric Prodrug Nanoparticles for the Prevention of Renal Ischemia/Reperfusion Injury

Clot-Targeted Antithrombotic Liposomal Nanomedicine Containing High Content of H₂O₂-Activatable Hybrid Prodrugs