Enhancing the tumoricidal efficacy of the nanobubbles-mediated PD-L1 inhibition and immunogenic cell death in mice
Yun Liu, Jiaxuan Han, Chaoqi Liu, Yezi Chen, Shiqi Yang, Yao Ma, Chang Zhou, Rong Liu, Yu Hu, Yun Zhao

TL;DR
This study explores a new nanobubble-based treatment combining Shikonin and miR-497 to enhance immune responses against liver cancer in mice.
Contribution
A novel nanobubble delivery system co-administers Shikonin and miR-497 to synergistically induce immunogenic cell death and block PD-L1 in hepatocellular carcinoma.
Findings
miR-497/SK-loaded nanobubbles showed optimal morphology and strong tumor inhibition in H22 hepatoma models.
The treatment activated immunogenic cell death and downregulated PD-L1, enhancing tumor antigen presentation.
The combination therapy induced a robust systemic anti-tumor immune response and tumor cell apoptosis in mice.
Abstract
Immunotherapy becoming the focus of contemporary multidisciplinary collaborative research efforts towards advanced hepatocellular carcinoma (HCC). This study aims to develop a nanobubble (NB) delivery system designed to co-administer an immunogenic cell death (ICD) inducer, Shikonin (SK), alongside an immune checkpoint inhibitor, miR-497-5p, to enhance the efficacy of the immune response against liver cancer. NBs were synthesized through thin-film hydration and mechanical oscillation techniques to encapsulate miR-497 and SK. Comprehensive characterization and pharmacokinetic analyses of the miR-497/SK-loaded NBs were conducted both in vitro and in vivo. To evaluate the anti-tumor efficacy and immunological activity of this combination therapy, a subcutaneous transplanted tumor model using H22 hepatoma cells was established. The miR-497/SK-NBs demonstrated an optimal morphology and…
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Taxonomy
TopicsBioactive Compounds and Antitumor Agents · Chemical and Physical Studies · Nanoplatforms for cancer theranostics
