Thermosensitive nanoparticle of mPEG-PTMC for oligopeptide delivery into osteoclast precursors

Wang, Peng-Hui; Yang, Rong; Liu, Shuai; Ren, Jianan; Liu, Xin; Wang, Xiaoxue; Zhang, Wenjie

doi:10.1177/0883911520933916

Cited by 3 publications

(1 citation statement)

References 40 publications

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“…[20][21][22] The amphiphilic block copolymer PEG-PTMC can self-assemble into micelles through hydrophilic and hydrophobic interactions to prolong the circulation time of loaded drugs in vivo. [23] More importantly, it can also be modified to simultaneously chemically graft multiple drugs in hydrophilic or hydrophobic segments and has proved to be a good carrier for drug delivery.…”

Section: Introductionmentioning

confidence: 99%

Construction and Mechanism of IL‐15‐Based Coactivated Polymeric Micelles for NK Cell Immunotherapy

Shao,

Bai,

Zhu

et al. 2023

Adv Healthcare Materials

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Natural killer (NK) cells have emerged as an important contributor to cancer immunotherapy, but their antitumor efficacy remains suboptimal. While cytokine‐based priming shows promise in enhancing NK‐cell activity, its clinical translation faces many challenges, including co‐activation of multiple cytokines, poor pharmacokinetics, and limited mechanistic understanding. Here, we developed a polymeric micelle‐based IL‐15/IL‐2 codelivery system (IL‐15/2‐PEG‐PTMC) for NK‐cell activation. In vivo studies demonstrated that the half‐life of IL‐15 and IL‐2 as well as the recruitment of NK cell within tumor tissue was significantly increased after PEG‐PTMC loading. Coupled with the coactivation effect of IL‐15 and IL‐2 conferred by this polymeric micelle‐based system, it noticeably delayed the growth of tumors in mice compared to conventional NK cell activation approach, that was free IL‐15 and IL‐2. We also surprisingly found that cholesterol metabolism was highly involved in the NK cell activation by IL‐15/2‐PEG‐PTMC. Following stimulation with IL‐15/2‐PEG‐PTMC or IL‐15, NK cells underwent a series of cholesterol metabolism reprogramming, which elevated the cholesterol levels on the NK cell membrane. This in turn promoted the formation of lipid rafts and actived immune synapse, effectively contributing to the enhancement of the NK cell's anti‐tumor activity. We believe this will open a new avenue for improving the efficacy of NK cell immunotherapy by regulating cholesterol metabolism.This article is protected by copyright. All rights reserved

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Section: Introductionmentioning

confidence: 99%

Construction and Mechanism of IL‐15‐Based Coactivated Polymeric Micelles for NK Cell Immunotherapy

Shao,

Bai,

Zhu

et al. 2023

Adv Healthcare Materials

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Intra‐Articular Injection of Nanomaterials for the Treatment of Osteoarthritis: From Lubrication Function Restoration to Cell and Gene Therapy

Yang,

Zhang

2024

Adv Funct Materials

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Osteoarthritis (OA), a prevalent joint disease affecting many people globally, presents significant challenge in current treatments, which often only manage symptoms without halting disease progression. This review illuminates novel approaches in OA therapy, focusing mainly on intra‐articular injection of nanomaterials. The innovative materials, designed to either mimic or augment natural joint lubrication, show promise in restoring joint biomechanics and alleviating pain. The review delves into an array of biomimetic lubricants, including polymer brush, nanocomposite hydrogel, and nanoparticles, underscoring their roles in anti‐inflammation, targeting, cartilage repair, and drug delivery. Furthermore, the potential of mesenchymal stem cells to differentiate into chondrocytes, coupled with the delivery of these cells and their exosomes via nanomaterials, has promoted cell therapy avenues for OA. The review also highlights the function of non‐coding RNAs such as miRNA, siRNA, circRNA, lncRNA, and antisense oligonucleotides in impeding OA progression, with nanomaterials facilitating their delivery, thus facilitating advanced therapeutic possibilities including immune evasion and bone cell proliferation. Overall, this review encapsulates the evolution of nanomaterials in OA treatment from material to cell, and ultimately to gene therapy, forecasting a future where nanomaterials evolve toward integrated, personalized diagnostics and therapeutics for OA.

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Polymeric Nanoparticles-Based Drug and Gene Delivery to Macrophages

Sahle

2022

Macrophage Targeted Delivery Systems

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Thermosensitive nanoparticle of mPEG-PTMC for oligopeptide delivery into osteoclast precursors

Cited by 3 publications

References 40 publications

Construction and Mechanism of IL‐15‐Based Coactivated Polymeric Micelles for NK Cell Immunotherapy

Construction and Mechanism of IL‐15‐Based Coactivated Polymeric Micelles for NK Cell Immunotherapy

Intra‐Articular Injection of Nanomaterials for the Treatment of Osteoarthritis: From Lubrication Function Restoration to Cell and Gene Therapy

Polymeric Nanoparticles-Based Drug and Gene Delivery to Macrophages

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