吲哚菁绿负载改性介孔硅纳米粒子作为一种有效的光热纳米平台。

Indocyanine Green Loaded Modified Mesoporous Silica Nanoparticles as an Effective Photothermal Nanoplatform.

机构信息

Hubei Province Research Center of Engineering Technology for Utilization of Botanical Functional Ingredients, Hubei Engineering University, Xiaogan 432000, China.

Hubei Key Laboratory of Quality Control of Characteristic Fruits and Vegetables, Hubei Engineering University, Xiaogan 432000, China.

出版信息

Int J Mol Sci. 2020 Jul 6;21(13):4789. doi: 10.3390/ijms21134789.

DOI:10.3390/ijms21134789

PMID:32640753

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7369735/

Abstract

Photothermal therapy possesses great advantages for the treatment of drug-resistant tumors. Herein, Near Infrared (NIR)-triggered photothermal nanoparticles were developed through loading indocyanine green (ICG), a kind of NIR dye, into amino group-modified silica nanoparticles (SiO-NH NPs). SiO-NH NPs were prepared with immobilization of the amino groups into the framework of silica nanoparticles (SiO NPs) by employing (3-aminopropyl)-triethoxysilane (APTES). Before and after the modification of the amino group, the particle sizes of SiO NPs showed similar value, around 100 nm. ICG was further adsorbed into SiO-NH NPs by electrostatic attraction to enable SiO-NH@ICG NPs as a kind of photothermal agent. The loading rate of ICG to SiO-NH was greatly increased compared to unmodified SiO, and the stability of ICG was also improved. Moreover, the SiO-NH@ICG NPs exhibited efficient photothermal effects due to ICG transforming laser power into local heat through the connected ICG, when NIR laser irradiation turned on for a couple of minutes. Finally, the in vitro antitumor efficacy of SiO-NH@ICG NPs was investigated by recording cell proliferation rate and further chronicled the apoptotic morphology evidence by a Calcein-AM/PI fluorescent staining assay, indicating the efficient photothermal targeted therapy for the HepG2 tumor cells.

摘要

光热疗法在治疗耐药肿瘤方面具有很大的优势。在此，通过将近红外（NIR）染料吲哚菁绿（ICG）负载到氨基改性的硅纳米粒子（SiO-NH NPs）中，开发了 NIR 触发的光热纳米粒子。SiO-NH NPs 通过将氨基固定到硅纳米粒子（SiO NPs）的骨架中，采用（3-氨丙基）-三乙氧基硅烷（APTES）来制备。在氨基改性前后，SiO NPs 的粒径显示出相似的值，约为 100nm。ICG 进一步通过静电吸引被吸附到 SiO-NH NPs 中，以使 SiO-NH@ICG NPs 成为一种光热剂。与未改性的 SiO 相比，ICG 对 SiO-NH 的负载率大大提高，并且 ICG 的稳定性也得到了提高。此外，由于连接的 ICG 将激光能量转化为局部热量，SiO-NH@ICG NPs 在 NIR 激光照射几分钟后表现出高效的光热效应。最后，通过记录细胞增殖率来研究 SiO-NH@ICG NPs 的体外抗肿瘤功效，并进一步通过 Calcein-AM/PI 荧光染色法记录凋亡形态证据，表明对 HepG2 肿瘤细胞的高效光热靶向治疗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62bc/7369735/41e9c0e4f95c/ijms-21-04789-g001.jpg

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吲哚菁绿负载改性介孔硅纳米粒子作为一种有效的光热纳米平台。

Indocyanine Green Loaded Modified Mesoporous Silica Nanoparticles as an Effective Photothermal Nanoplatform.

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