Dendrimer-mediated targeting of angiogenic biomarkers: therapeutic intervention against cancer.

Expert opinion on drug delivery Pub Date : 2024-08-01 Epub Date: 2024-09-04 DOI:10.1080/17425247.2024.2394631
Anchal Pathak, Narendra Kumar Jain, Keerti Jain
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Abstract

Introduction: Development of novel vascular networks is a fundamental requirement for tumor growth and progression. In the last decade, biomarkers and underlying molecular pathways of angiogenesis have been intensely investigated to disrupt the initiation and progression of tumor angiogenesis. However, the clinical applications of anti-angiogenic agents are constrained due to toxic side effects, acquired drug resistance, and unavailability of validated biomarkers.

Area covered: This review discusses the development of dendrimeric nanocarriers that could be a promising domain to explore for the eradication of current challenges associated with angiogenesis-based cancer therapy. Novel drug-delivery approaches with subtle readouts and better understanding of molecular mechanisms have revealed that dendrimers comprise innate anti-angiogenic activity and incorporation of anti-angiogenic agents or gene-silencing RNA could lead to synergistic anti-angiogenic and anticancer effects with reduced side effects.

Expert opinion: Dendrimer-mediated targeting of angiogenic biomarkers has efficiently led to the vascular normalization, and rational linking of dendrimers with anti-angiogenic agent or siRNA or both might be a potential area to eradicate the current challenges of angiogenesis-based cancer therapy. However, drawbacks associated with the dendrimers-mediated targeting of angiogenic biomarkers, such as poor stability or small expression of these biomarkers on the normal cells, limit their application at market scale.

树枝状聚合物介导的血管生成生物标记物靶向:癌症治疗干预。
简介新型血管网络的发展是肿瘤生长和进展的基本要求。近十年来,人们对血管生成的生物标志物和潜在分子途径进行了深入研究,以阻断肿瘤血管生成的启动和进展。然而,由于毒副作用、获得性耐药性和缺乏有效的生物标志物,抗血管生成药物的临床应用受到了限制:本综述讨论了树枝状聚合物纳米载体的开发,该载体可能是一个很有前景的领域,可用于探索如何消除目前与基于血管生成的癌症治疗相关的挑战。新颖的给药方法具有微妙的读数和对分子机制的更好理解,揭示了树枝状聚合物具有天生的抗血管生成活性,加入抗血管生成药物或基因沉默 RNA 可产生协同的抗血管生成和抗癌效果,同时减少副作用:树枝状聚合物介导的血管生成生物标志物靶向有效地实现了血管正常化,将树枝状聚合物与抗血管生成剂或 siRNA 或两者合理地结合在一起,可能是消除目前基于血管生成的癌症治疗难题的一个潜在领域。然而,树枝状聚合物介导的血管生成生物标记物靶向存在一些缺陷,如稳定性差或这些生物标记物在正常细胞中的表达量较小,这限制了其在市场上的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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