Antibody-Free Immunopeptide Nanoconjugates for Brain-Targeted Drug Delivery in Glioblastoma Multiforme.

IF 4 2区化学 Q1 BIOCHEMICAL RESEARCH METHODS

Bioconjugate Chemistry Pub Date : 2025-07-02 DOI:10.1021/acs.bioconjchem.5c00168

Saurabh Sharma, David Lee, Surjendu Maity, Prabhjeet Singh, Jay Chadokiya, Neda Mohaghegh, Alireza Hassani, Hanjun Kim, Ankit Gangarade, Julia Y Ljubimova, Amanda Kirane, Eggehard Holler

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引用次数: 0

Abstract

Glioblastoma Multiforme (GBM) represents a significant clinical challenge among central nervous system tumors, with a dismal mean survival rate of less than 8 months, a statistic that has remained largely unchanged for decades (National Brain Society, 2022). The specialized intricate anatomical features of the brain, notably the blood-brain barrier (BBB), pose significant challenges to effective therapeutic interventions, limiting the potential reach of modern advancements in immunotherapy to impact these types of tumors. This study introduces an innovative, actively targeted immunotherapeutic nanoconjugate (P-12/AP-2/NCs) designed to serve as an immunotherapeutic agent capable of traversing the BBB via LRP-1 receptor-mediated transcytosis. P-12/AP-2/NCs exert their immune-modulating effects by inhibiting the PD-1/PD-L1 axis through a small-sized PD-L1/PD-L2 antagonist peptide, Aurigene NP-12 (P-12). P-12/AP-2/NCs are synthesized from completely biodegradable, functionalized high molecular weight β-poly(l-malic acid) (PMLA) polymer conjugated with P-12 and Angiopep-2 (AP-2) to yield P-12/AP-2/NCs. Evaluating nanoconjugates for BBB permeability and 3D tumor model efficacy using an in vitro BBB-Transwell spheroid-based model demonstrated successful crossing of the BBB and internalization in brain 3D tumor environments. In addition, the nanoconjugate mediated T cells' cytotoxicity on 3D tumor region death in a U87 GBM 3D spheroid model. AP-2/P-12/NCs are selectively inhibited in PD1/PDL1 interaction on T cells and the tumor site, increasing inflammatory cytokine secretion and T cell proliferation. In an in vivo murine brain environment, rhodamine fluorophore-labeled AP-2/P-12/NCs displayed significantly increased accumulation in the brain during 2-6 h time intervals postinjection with a prolonged bioavailability over unconjugated peptides. AP-2/P-12/NCs demonstrated a safety profile at both low and high doses based on major organ histopathology evaluations. Our findings introduce a novel, programmable nanoconjugate platform capable of penetrating the BBB for directed delivery of small peptides and significant immune environment modulation without utilizing antibodies, offering promise for treating challenging brain diseases such as glioblastoma multiforme and beyond.

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多形性胶质母细胞瘤脑靶向药物递送的无抗体免疫肽纳米偶联物。

多形性胶质母细胞瘤（GBM）是中枢神经系统肿瘤中一个重要的临床挑战，其平均存活率不到8个月，这一统计数据几十年来基本保持不变（National Brain Society, 2022）。大脑的特殊复杂的解剖特征，特别是血脑屏障（BBB），对有效的治疗干预提出了重大挑战，限制了现代免疫治疗对这些类型肿瘤的潜在影响。本研究介绍了一种创新的、主动靶向的免疫治疗纳米偶联物（P-12/AP-2/ nc），它被设计为一种能够通过LRP-1受体介导的胞吞作用穿越血脑屏障的免疫治疗剂。P-12/AP-2/ nc通过小尺寸的PD-L1/PD-L2拮抗剂肽Aurigene NP-12 （P-12）抑制PD-1/PD-L1轴发挥免疫调节作用。P-12/AP-2/NCs是由完全可生物降解、功能化的高分子量β-聚l-苹果酸（PMLA）聚合物与P-12和Angiopep-2 （AP-2）偶联而成。利用体外血脑屏障- transwell球体模型评估纳米偶联物对血脑屏障通透性和3D肿瘤模型的疗效，结果表明纳米偶联物在脑三维肿瘤环境中成功穿过血脑屏障并内化。此外，纳米缀合物介导的T细胞对U87 GBM三维球体模型三维肿瘤区域死亡的细胞毒性。AP-2/P-12/NCs选择性抑制PD1/PDL1与T细胞和肿瘤部位的相互作用，增加炎症细胞因子分泌和T细胞增殖。在体内小鼠脑环境中，罗丹明荧光团标记的AP-2/P-12/NCs在注射后2-6小时的时间间隔内显著增加在大脑中的积累，与非偶联肽相比，生物利用度延长。根据主要器官组织病理学评估，AP-2/P-12/NCs在低剂量和高剂量下均表现出安全性。我们的研究结果介绍了一种新颖的、可编程的纳米偶联平台，能够穿透血脑屏障，在不使用抗体的情况下定向递送小肽和显著的免疫环境调节，为治疗多发性胶质母细胞瘤等具有挑战性的脑部疾病提供了希望。

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来源期刊

Bioconjugate Chemistry 生物-化学综合

CiteScore

9.00

自引率

2.10%

发文量

236

审稿时长

1.4 months

期刊介绍： Bioconjugate Chemistry invites original contributions on all research at the interface between man-made and biological materials. The mission of the journal is to communicate to advances in fields including therapeutic delivery, imaging, bionanotechnology, and synthetic biology. Bioconjugate Chemistry is intended to provide a forum for presentation of research relevant to all aspects of bioconjugates, including the preparation, properties and applications of biomolecular conjugates.