超小粒径纳米载体递送多柔比星可提高高级别神经胶质瘤的治疗指数。

Ultrasmall Nanoparticle Delivery of Doxorubicin Improves Therapeutic Index for High-Grade Glioma.

机构信息

Department of Radiology, Sloan Kettering Institute for Cancer Research, New York, New York.

MSK-Cornell Center for Translation of Cancer Nanomedicines, Sloan Kettering Institute for Cancer Research, New York, New York.

出版信息

Clin Cancer Res. 2022 Jul 1;28(13):2938-2952. doi: 10.1158/1078-0432.CCR-21-4053.

DOI:10.1158/1078-0432.CCR-21-4053

PMID:35499557

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9250642/

Abstract

PURPOSE

Despite dramatic growth in the number of small-molecule drugs developed to treat solid tumors, durable therapeutic options to control primary central nervous system malignancies are relatively scarce. Chemotherapeutic agents that appear biologically potent in model systems have often been found to be marginally effective at best when given systemically in clinical trials. This work presents for the first time an ultrasmall (<8 nm) multimodal core-shell silica nanoparticle, Cornell prime dots (or C' dots), for the efficacious treatment of high-grade gliomas.

EXPERIMENTAL DESIGN

This work presents first-in-kind renally clearable ultrasmall (<8 nm) multimodal C' dots with surface-conjugated doxorubicin (DOX) via pH-sensitive linkers for the efficacious treatment in two different clinically relevant high-grade glioma models.

RESULTS

Optimal drug-per-particle ratios of as-developed nanoparticle-drug conjugates were established and used to obtain favorable pharmacokinetic profiles. The in vivo efficacy results showed significantly improved biological, therapeutic, and toxicological properties over the native drug after intravenous administration in platelet-derived growth factor-driven genetically engineered mouse model, and an EGF-expressing patient-derived xenograft (EGFR PDX) model.

CONCLUSIONS

Ultrasmall C' dot-drug conjugates showed great translational potential over DOX for improving the therapeutic outcome of patients with high-grade gliomas, even without a cancer-targeting moiety.

摘要

目的

尽管针对实体瘤开发的小分子药物数量显著增加，但控制原发性中枢神经系统恶性肿瘤的持久治疗选择仍然相对较少。在模型系统中表现出生物学效力的化疗药物在临床试验中全身性给药时，往往效果甚微。本研究首次提出了一种超小（<8nm）多模态核壳硅纳米颗粒，即康奈尔 Prime 点（或 C'点），可有效治疗高级别神经胶质瘤。

实验设计

本研究首次提出了具有肾脏清除能力的超小(<8nm)多模态 C'点，其表面通过 pH 敏感键连接有阿霉素（DOX），可用于两种不同的临床相关高级别神经胶质瘤模型的有效治疗。

结果

优化了所开发的纳米药物缀合物的每个粒子的最佳药物比例，并用于获得有利的药代动力学特征。体内疗效结果表明，与静脉注射后体内的天然药物相比，血小板衍生生长因子驱动的基因工程小鼠模型和表达表皮生长因子的患者来源异种移植（EGFR PDX）模型中，这些药物具有更好的生物学、治疗和毒理学特性。

结论

超小的 C'点药物缀合物在改善高级别神经胶质瘤患者的治疗效果方面具有很大的转化潜力，即使没有癌症靶向部分也是如此。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ddbc/9365371/247a84b86de3/2938fig1.jpg

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超小粒径纳米载体递送多柔比星可提高高级别神经胶质瘤的治疗指数。

Ultrasmall Nanoparticle Delivery of Doxorubicin Improves Therapeutic Index for High-Grade Glioma.

机构信息

出版信息

PURPOSE

EXPERIMENTAL DESIGN

RESULTS

CONCLUSIONS

目的

实验设计

结果

结论

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