Powering up targeted protein degradation through active and passive tumour-targeting strategies: Current and future scopes

IF 12 1区 医学 Q1 PHARMACOLOGY & PHARMACY Pharmacology & Therapeutics Pub Date : 2024-09-24 DOI:10.1016/j.pharmthera.2024.108725
Janarthanan Venkatesan , Dhanashree Murugan , Kalaiarasu Lakshminarayanan , Alexis R. Smith , Harashkumar Vasanthakumari Thirumalaiswamy , Hariprasath Kandhasamy , Boutheina Zender , Guangrong Zheng , Loganathan Rangasamy
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Abstract

Targeted protein degradation (TPD) has emerged as a prominent and vital strategy for therapeutic intervention of cancers and other diseases. One such approach involves the exploration of proteolysis targeting chimeras (PROTACs) for the selective elimination of disease-causing proteins through the innate ubiquitin-proteasome pathway. Due to the unprecedented achievements of various PROTAC molecules in clinical trials, researchers have moved towards other physiological protein degradation approaches for the targeted degradation of abnormal proteins, including lysosome-targeting chimeras (LYTACs), autophagy-targeting chimeras (AUTACs), autophagosome-tethering compounds (ATTECs), molecular glue degraders, and other derivatives for their precise mode of action. Despite numerous advantages, these molecules face challenges in solubility, permeability, bioavailability, and potential off-target or on-target off-tissue effects. Thus, an urgent need arises to direct the action of these degrader molecules specifically against cancer cells, leaving the proteins of non-cancerous cells intact. Recent advancements in TPD have led to innovative delivery methods that ensure the degraders are delivered in a cell- or tissue-specific manner to achieve cell/tissue-selective degradation of target proteins. Such receptor-specific active delivery or nano-based passive delivery of the PROTACs could be achieved by conjugating them with targeting ligands (antibodies, aptamers, peptides, or small molecule ligands) or nano-based carriers. These techniques help to achieve precise delivery of PROTAC payloads to the target sites. Notably, the successful entry of a Degrader Antibody Conjugate (DAC), ORM-5029, into a phase 1 clinical trial underscores the therapeutic potential of these conjugates, including LYTAC-antibody conjugates (LACs) and aptamer-based targeted protein degraders. Further, using bispecific antibody-based degraders (AbTACs) and delivering the PROTAC pre-fused with E3 ligases provides a solution for cell type-specific protein degradation. Here, we highlighted the current advancements and challenges associated with developing new tumour-specific protein degrader approaches and summarized their potential as single agents or combination therapeutics for cancer.
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通过主动和被动肿瘤靶向策略促进靶向蛋白质降解:当前和未来的范围
靶向蛋白质降解(TPD)已成为治疗干预癌症和其他疾病的重要策略。其中一种方法是探索蛋白水解靶向嵌合体(PROTACs),通过先天性泛素-蛋白酶体途径选择性地消除致病蛋白。由于各种 PROTAC 分子在临床试验中取得了前所未有的成就,研究人员已转向其他生理性蛋白质降解方法,以靶向降解异常蛋白质,包括溶酶体靶向嵌合体(LYTAC)、自噬靶向嵌合体(AUTAC)、自噬体拴系化合物(ATTEC)、分子胶降解剂和其他具有精确作用模式的衍生物。尽管这些分子具有诸多优势,但在溶解性、渗透性、生物利用度以及潜在的靶外或靶内组织外效应方面仍面临挑战。因此,迫切需要引导这些降解分子专门针对癌细胞发挥作用,而使非癌细胞的蛋白质不受影响。TPD 领域的最新进展带来了创新的递送方法,可确保降解剂以细胞或组织特异性的方式递送,从而实现对目标蛋白质的细胞/组织选择性降解。通过将 PROTACs 与靶向配体(抗体、适配体、肽或小分子配体)或纳米载体共轭,可以实现这种受体特异性主动递送或基于纳米的被动递送。这些技术有助于实现将 PROTAC 有效载荷精确输送到靶点。值得注意的是,降解抗体共轭物(DAC)ORM-5029 已成功进入 1 期临床试验,这凸显了这些共轭物(包括 LYTAC-抗体共轭物(LAC)和基于适配体的靶向蛋白降解剂)的治疗潜力。此外,使用基于抗体的双特异性降解剂(AbTACs)并递送预融合了E3连接酶的PROTAC为细胞类型特异性蛋白降解提供了一种解决方案。在此,我们着重介绍了目前开发新的肿瘤特异性蛋白降解剂方法所取得的进展和面临的挑战,并总结了它们作为单药或联合疗法治疗癌症的潜力。
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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来源期刊
CiteScore
23.00
自引率
0.70%
发文量
222
审稿时长
90 days
期刊介绍: Pharmacology & Therapeutics, in its 20th year, delivers lucid, critical, and authoritative reviews on current pharmacological topics.Articles, commissioned by the editor, follow specific author instructions.This journal maintains its scientific excellence and ranks among the top 10 most cited journals in pharmacology.
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