用光动力纳米药物靶向肿瘤微环境。

IF 10.9 1区 医学 Q1 CHEMISTRY, MEDICINAL
Suraj Kumar Modi, Pragyan Mohapatra, Priya Bhatt, Aishleen Singh, Avanish Singh Parmar, Aniruddha Roy, Vibhuti Joshi, Manu Smriti Singh
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引用次数: 0

摘要

光动力疗法(PDT)已被批准用于治疗某些癌症和癌前病变。虽然早期的光敏剂(PS)已进入临床,但过去二十年的研究已导致第三代光敏剂的开发,包括用于改善肿瘤给药和最小全身或光毒性的光动力纳米药物。在用于光动力疗法的纳米粒子设计方面,我们正在见证从被动给药到主动给药的转变,从而在减少 PS 用量的同时提高疗效。肿瘤微环境(TME)是一个复杂而动态的过程,它具有无数潜在的光动力纳米载体目标,这些载体表面都有配体修饰。在此,我们回顾了通过主动将纳米粒子(NPs)靶向线粒体或溶酶体等细胞内细胞器、克服光动力疗法引起的缺氧所造成的限制、破坏肿瘤组织中的血管网络--血管靶向光动力疗法(VTP)以及靶向免疫细胞进行光免疫疗法来改进光动力疗法的方法。我们认为,协同前景将有助于解决深部肿瘤、转移或复发等难题,并能使患者对光化学疗法产生强有力的反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Targeting tumor microenvironment with photodynamic nanomedicine.

Photodynamic therapy (PDT) is approved for the treatment of certain cancers and precancer lesions. While early Photosensitizers (PS) have found their way to the clinic, research in the last two decades has led to the development of third-generation PS, including photodynamic nanomedicine for improved tumor delivery and minimal systemic or phototoxicity. In terms of nanoparticle design for PDT, we are witnessing a shift from passive to active delivery for improved outcomes with reduced PS dosage. Tumor microenvironment (TME) comprises of a complex and dynamic landscape with myriad potential targets for photodynamic nanocarriers that are surface-modified with ligands. Herein, we review ways to improvise PDT by actively targeting nanoparticles (NPs) to intracellular organelles such as mitochondria or lysosomes and so forth, overcoming the limitations caused by PDT-induced hypoxia, disrupting the blood vascular networks in tumor tissues-vascular targeted PDT (VTP) and targeting immune cells for photoimmunotherapy. We propose that a synergistic outlook will help to address challenges such as deep-seated tumors, metastasis, or relapse and would lead to robust PDT response in patients.

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来源期刊
CiteScore
29.30
自引率
0.00%
发文量
52
审稿时长
2 months
期刊介绍: Medicinal Research Reviews is dedicated to publishing timely and critical reviews, as well as opinion-based articles, covering a broad spectrum of topics related to medicinal research. These contributions are authored by individuals who have made significant advancements in the field. Encompassing a wide range of subjects, suitable topics include, but are not limited to, the underlying pathophysiology of crucial diseases and disease vectors, therapeutic approaches for diverse medical conditions, properties of molecular targets for therapeutic agents, innovative methodologies facilitating therapy discovery, genomics and proteomics, structure-activity correlations of drug series, development of new imaging and diagnostic tools, drug metabolism, drug delivery, and comprehensive examinations of the chemical, pharmacological, pharmacokinetic, pharmacodynamic, and clinical characteristics of significant drugs.
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