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PROTACs和分子胶——给“不可药物”下药
在过去十年中, researchers have made great progress studying how the proximity, 或者身体上的亲密, of proteins inside a cell influences processes like transcription, 信号传导和蛋白质折叠. Scientists are now exploring small molecules with unique modes of action that can influence this proximity and related processes in cancer cells to address previously “undruggable” targets.1 Major investments in novel technologies have helped usher these compounds into the clinic, with the expectation that they could transform the treatment landscape for patients with cancer.
PROteolysis TArgeting Chimeras – or PROTACs – are highly specific medicines that degrade unwanted or harmful proteins in cells. PROTACs are bifunctional molecules with two heads connected by a linker. One ‘head’ of the molecule selectively binds the target protein and a second ‘head’ of the molecule recruits a cellular enzyme, E3泛素连接酶. This enables the PROTAC to bring the ligase enzyme into close contact with the target protein, enabling the protein to be labelled with a ubiquitin tag and targeted for degradation by the ubiquitin-proteasome system. This process utilises the cell’s natural waste disposal system, 导致蛋白质从细胞中被清除.
PROTACs have a unique ability to target binding sites on protein surfaces or shallow cavities that are otherwise unreachable by other drug modalities, 允许探索新的目标.1 除了, because their mode of action results in protein degradation, PROTACs can drive a differentiated pharmacological response versus traditional small molecule inhibitors.
The novel mode of action of PROTACs does not depend on finding deep drug-binding cavities on target molecules that small molecules normally require. 通过降解它们的目标蛋白, they also have the potential to produce a long-lasting biological effect.2
澳门葡京赌博游戏在 蛋白质组学 technology underpins the development of PROTACs as therapeutics. With a robust platform to enable the efficient design and characterisation of novel PROTACs , we are rapidly growing the number of projects utilising this approach across our therapy areas.3, 4
Our automated end-to-end platform is accelerating the discovery of orally bioavailable PROTAC drug molecules, and we have established a suite of pharmacology and safety assays that allow us to monitor protein degradation and predict disease efficacy.
分子胶水
Beyond PROTACs we are exploring the potential of molecular glues, another drug modality that leverages chemically-induced proximity in the cell.5 Molecular glues are small molecules that mediate the interaction between a protein of interest and cellular enzyme such as Cyclophilin A or E3 ligases, to promote the recruitment of additional protein partners and inactivate the target protein or drive it’s degradation in a manner similar to PROTACs respectively. PROTACs和分子胶都是令人兴奋的 精密的药物 that can potentially address disordered proteins in cancer that were previously considered undruggable targets.5
Learn more about how molecular glues target intractable proteins in this video:
Currently, cancer therapies only target a small fraction of biologically validated targets. By expanding our drug discovery toolkit to emerging modalities such as PROTACs and molecular glues, we have the opportunity to reach important oncology targets that were previously considered undruggable using traditional approaches.
参考文献
1. 孙旭,高华,杨勇,等. protac:学术界和工业界的巨大机遇. 信号传导目标. 2019;4:64. 2019年12月24日发布.
2. 康斯坦丁尼多,李军,张斌,等. PROTACs——一项改变游戏规则的技术. 专家意见药物发现. 2019;14(12):1255-1268.
3. 徐建辉,Rasmusson T, Robinson J,等. EED-Targeted PROTACs Degrade EED, EZH2, and SUZ12 in the PRC2 Complex. 细胞化学生物学. 2020;27(1):41-46.e17.
4. 王晓明,王晓明等., Optimising proteolysis-targeting chimeras (PROTACs) for oral drug delivery: a drug metabolism and pharmacokinetics perspective. 今日药物发现. 2020; 25(10):1793-1800.; 更多的au K, Coen M et al. Proteolysis‐targeting chimeras in drug development: A safety perspective. J杂志. 2020;177:1709–1718
5. Schreiber SL,《澳门葡京赌博游戏》. 细胞,2021年1月7日;184(1):3-9.
Veeva ID: Z4-60711
筹备日期:2023年12月