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Literature DB >> 33415184

Acoustically Driven Microbubbles Enable Targeted Delivery of microRNA-Loaded Nanoparticles to Spontaneous Hepatocellular Neoplasia in Canines.

Sukumar Uday Kumar¹, Arsenii V Telichko¹, Huaijun Wang¹, Dongwoon Hyun¹, Eric G Johnson², Michael S Kent², Robert B Rebhun², Jeremy J Dahl¹, William T N Culp², Ramasamy Paulmurugan¹.

Abstract

Spatially localized microbubble cavitation by ultrasound offers an effective means of altering permeability of natural barriers (i.e. blood vessel and cell membrane) in favor of nanomaterials accumulation in the target site. In this study, a clinically relevant, minimally invasive ultrasound guided therapeutic approach is investigated for targeted delivery of anticancer microRNA loaded PLGA-b-PEG nanoparticles to spontaneous hepatocellular neoplasia in a canine model. Quantitative assessment of the delivered microRNAs revealed prominent and consistent increase in miRNAs levels (1.5-to 2.3-fold increase (p<0.001)) in ultrasound treated tumor regions compared to untreated control regions. Immunohistology of ultrasound treated tumor tissue presented a clear evidence for higher amount of nanoparticles extravasation from the blood vessels. A distinct pattern of cytokine expression supporting CD8+ T cells mediated "cold-to-hot" tumor transition was evident in all patients. On the outset, proposed platform can enhance delivery of miRNA-loaded nanoparticles to deep seated tumors in large animals to enhance chemotherapy.

Entities: Chemical Disease Gene Species

Keywords: dog model; focused ultrasound; microRNA; microRNA delivery; microbubbles; nanoparticles; targeted delivery

Year: 2020 PMID： 33415184 PMCID： PMC7784952 DOI： 10.1002/adtp.202000120

Source DB: PubMed Journal: Adv Ther (Weinh) ISSN： 2366-3987

61 in total

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2 in total

1. Camouflaged Hybrid Cancer Cell-Platelet Fusion Membrane Nanovesicles Deliver Therapeutic MicroRNAs to Presensitize Triple-Negative Breast Cancer to Doxorubicin.

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2 in total