用于治疗系统性红斑狼疮的地塞米松负载 DNA 清除剂纳米凝胶

IF 18 1区 医学 Q1 ENGINEERING, BIOMEDICAL
Haofang Zhu , Danqing Huang , Min Nie , Yuanjin Zhao , Lingyun Sun
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引用次数: 0

摘要

狼疮性肾炎(LN)给系统性红斑狼疮(SLE)患者带来了严重的风险,促使人们对能够调节免疫反应和清除细胞游离 DNA(cfDNA)的靶向递送系统进行了广泛的研究。在这里,我们提出了一种新型肾归位纳米凝胶,它既是一种 cfDNA 清除剂,又是一种地塞米松(DXM)输送载体,可用于 LN 治疗。这种阳离子纳米凝胶(G3DSP)以第 3 代聚赖氨酸树枝状聚合物为基础,毒性极低,DXM 负载效率极高。我们的研究证实,这些纳米凝胶能在体外与阴离子 cfDNA 竞争性结合,从而抑制收费样受体 9(TLR9)的激活。当给 MRL/lpr 小鼠全身给药时,纳米凝胶会优先定位并保留在发炎的肾脏中,在活性氧(ROS)的作用下释放其有效载荷,从而有效改善系统性红斑狼疮的症状。因此,G3DSP 纳米凝胶有望成为治疗 LN 的一种有效的联合疗法,它能最大限度地减少 cfDNA 在重要器官中的积累,并通过 DXM 提供免疫调节益处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dexamethasone loaded DNA scavenger nanogel for systemic lupus erythematosus treatment

Dexamethasone loaded DNA scavenger nanogel for systemic lupus erythematosus treatment
Lupus nephritis (LN) poses a severe risk for individuals with systemic lupus erythematosus (SLE), prompting extensive research into targeted delivery systems capable of modulating immune responses and clearing cell-free DNA (cfDNA). Here, we propose a novel renal homing nanogel that acts as a cfDNA scavenger and a dexamethasone (DXM) delivery carrier for LN treatment. Based on the generation 3 polylysine dendrimers, the created cationic nanogels (G3DSP) exhibit minimal toxicity and outstanding DXM loading efficiency. Our studies confirm that these nanogels can competitively bind with anionic cfDNA in vitro, leading to the suppression of toll-like receptor 9 (TLR9) activation. When administered systemically to MRL/lpr mice, the nanogels preferentially localize to and are retained in the inflamed kidneys, releasing their payload in response to reactive oxygen species (ROS), therefore effectively ameliorating SLE symptoms. Consequently, G3DSP nanogels emerge as a promising effective combined therapy for LN, minimizing cfDNA accumulation in vital organs and delivering immunomodulatory benefits through DXM.
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来源期刊
Bioactive Materials
Bioactive Materials Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
28.00
自引率
6.30%
发文量
436
审稿时长
20 days
期刊介绍: Bioactive Materials is a peer-reviewed research publication that focuses on advancements in bioactive materials. The journal accepts research papers, reviews, and rapid communications in the field of next-generation biomaterials that interact with cells, tissues, and organs in various living organisms. The primary goal of Bioactive Materials is to promote the science and engineering of biomaterials that exhibit adaptiveness to the biological environment. These materials are specifically designed to stimulate or direct appropriate cell and tissue responses or regulate interactions with microorganisms. The journal covers a wide range of bioactive materials, including those that are engineered or designed in terms of their physical form (e.g. particulate, fiber), topology (e.g. porosity, surface roughness), or dimensions (ranging from macro to nano-scales). Contributions are sought from the following categories of bioactive materials: Bioactive metals and alloys Bioactive inorganics: ceramics, glasses, and carbon-based materials Bioactive polymers and gels Bioactive materials derived from natural sources Bioactive composites These materials find applications in human and veterinary medicine, such as implants, tissue engineering scaffolds, cell/drug/gene carriers, as well as imaging and sensing devices.
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