Igniting tumour microenvironment in triple-negative breast cancer using a mannose/hyaluronic acid dual-coated Ganoderma polysaccharide-superparamagnetic iron oxide nanocomplex for combinational therapies.

IF 4.3 4区医学 Q1 PHARMACOLOGY & PHARMACY Journal of Drug Targeting Pub Date : 2025-01-01 Epub Date: 2024-10-30 DOI:10.1080/1061186X.2024.2408721

Shaofei Yuan, Linjia Zhu, Yi Luo, Xiaoqiang Chen, Haibo Jing, Jiaqi Wang, Xiangyu Su, Meizhen Liang, Zhixiang Zhuang

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Abstract

Eliciting tumour microenvironment (TME) activation in triple-negative breast cancer (TNBC) is crucial for effective anti-tumour therapies. The aim of this study is to employ pharmaceutical approaches to precisely deliver Ganoderma polysaccharide (GPS) to tumour sites, thereby enhancing TME activation. We first established a direct link between the accumulation of GPS within tumours and its efficacy in the TME activation. Building upon this insight, we then engineered a mannose/hyaluronic acid dual-coated GPS-loaded superparamagnetic iron oxide nanocomplex (Man/HA/GPS-SPIONs) with a particle size of 33.8 ± 1.6 nm and a zeta potential of -22.4 ± 3.5 mV, capable of precise tumour accumulation through magnet-assisted targeting and internalisation by tumour-associated macrophages (TAMs) and tumour cells, facilitated by dual ligand modification. In vitro, Man/HA/GPS-SPIONs effectively induced M1 polarisation of macrophages (CD86⁺ cells: 38.6 ± 2.8%), curbed 4T1 cell proliferation (viability: 47.3 ± 2.9%) and heightened Th1 cytokine release. Significantly, in vivo, Man/HA/GPS-SPIONs notably suppressed tumour growth (tumour index: 0.048 ± 0.005), fostered M1 polarisation of TAMs (CD45⁺F4/80⁺CD86⁺ cells: 26.1 ± 7.2%), consequently bolstering intratumoural T cytotoxic cells. This enhancement was intricately tied to the efficient co-delivery of GPS and iron ions to the tumours, made possible by the Man/HA/GPS-SPIONs delivery system. The synergistic effects with paclitaxel (PTX, inhibition rate: 61.2 ± 4.3%) and PD-1 inhibitors (inhibition rate: 69.8 ± 7.6%) underscored the translational potential of this approach. By harnessing a well-conceived iron-based drug delivery strategy, this study amplifies the tumour immune modulatory potential of natural polysaccharides, offering insightful guidance for interventions in the TME and synergistic therapies.

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利用甘露糖/透明质酸双包被灵芝多糖-超顺磁性氧化铁纳米复合物点燃三阴性乳腺癌的肿瘤微环境，实现联合治疗

激活三阴性乳腺癌（TNBC）的肿瘤微环境（TME）对于有效的抗肿瘤疗法至关重要。本研究的目的是采用药物方法将灵芝多糖（GPS）精确输送到肿瘤部位，从而增强肿瘤微环境的激活。我们首先建立了灵芝多糖在肿瘤内的积聚与灵芝多糖激活肿瘤组织和器官的功效之间的直接联系。在此基础上，我们设计了一种甘露糖/透明质酸双包被GPS的超顺磁性氧化铁纳米复合物（Man/HA/GPS-SPIONs），其粒径为33.8 ± 1.6 nm，zeta电位为-22.4 ± 3.5 mV，能够通过磁辅助靶向和肿瘤相关巨噬细胞（TAMs）及肿瘤细胞的内化，并通过双配体修饰实现精确的肿瘤聚集。在体外，Man/HA/GPS-SPIONs 能有效诱导巨噬细胞的 M1 极化（CD86+ 细胞：38.6 ± 2.8%），抑制 4T1 细胞的增殖（存活率：47.3 ± 2.9%），并增强 Th1 细胞因子的释放。值得注意的是，在体内，Man/HA/GPS-SPIONs 能显著抑制肿瘤生长（肿瘤指数：0.048 ± 0.005），促进 TAMs 的 M1 极化（CD45+F4/80+CD86+ 细胞：26.1 ± 7.2%），从而增强瘤内 T 细胞毒性细胞。这种增强作用与 Man/HA/GPS-SPIONs 递送系统将 GPS 和铁离子高效地共同递送到肿瘤中密不可分。与紫杉醇（PTX，抑制率：61.2 ± 4.3%）和 PD-1 抑制剂（抑制率：69.8 ± 7.6%）的协同效应凸显了这种方法的转化潜力。通过利用精心构思的铁基给药策略，这项研究放大了天然多糖的肿瘤免疫调节潜力，为TME的干预和协同疗法提供了深刻的指导。

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来源期刊

Journal of Drug Targeting 医学-药学

CiteScore

9.10

自引率

0.00%

发文量

165

审稿时长

2 months

期刊介绍： Journal of Drug Targeting publishes papers and reviews on all aspects of drug delivery and targeting for molecular and macromolecular drugs including the design and characterization of carrier systems (whether colloidal, protein or polymeric) for both vitro and/or in vivo applications of these drugs. Papers are not restricted to drugs delivered by way of a carrier, but also include studies on molecular and macromolecular drugs that are designed to target specific cellular or extra-cellular molecules. As such the journal publishes results on the activity, delivery and targeting of therapeutic peptides/proteins and nucleic acids including genes/plasmid DNA, gene silencing nucleic acids (e.g. small interfering (si)RNA, antisense oligonucleotides, ribozymes, DNAzymes), as well as aptamers, mononucleotides and monoclonal antibodies and their conjugates. The diagnostic application of targeting technologies as well as targeted delivery of diagnostic and imaging agents also fall within the scope of the journal. In addition, papers are sought on self-regulating systems, systems responsive to their environment and to external stimuli and those that can produce programmed, pulsed and otherwise complex delivery patterns.