Dechenne Juhans, Wierzbicka Magdalena, Krimou Reda, El Aakchioui Asia, Malo Pueyo Julia, Messens Joris, Fillet Marianne, Spillier Quentin, Frédérick Raphaël
Louvain Drug Research Institute (LDRI), Medicinal Chemistry Research Group (CMFA), Université Catholique de Louvain (UCLouvain), Brussels B-1200, Belgium.
Laboratory for the Analysis of Medicines (CIRM), Université de Liège (ULG), Liège B-4000, Belgium.
J Med Chem. 2025 Jan 23;68(2):1433-1445. doi: 10.1021/acs.jmedchem.4c01993. Epub 2025 Jan 2.
Arginase-1 (ARG-1) is a promising target for cancer immunotherapy, but the small size and the highly polar nature of its catalytic site present significant challenges for inhibitor development. An alternative strategy to induce enzyme inhibition by targeting protein oligomerization has been developed recently, offering several advantages such as increased selectivity, promotion of protein degradation, and potential substoichiometric inhibition. In this study, we demonstrated that only trimeric ARG-1 is active, which was confirmed by producing monomeric arginase-1. Through -driven site-directed mutagenesis, we identified an allosteric site involving five key amino acids responsible for ARG-1 trimerization. We further demonstrated the covalent modification of a key arginine residue within this pocket using phenylglyoxal disrupted ARG-1 oligomerization. Although phenylglyoxal has limited potency, it effectively supports the concept of ARG-1 inhibition via homomeric disruption, validating this allosteric targeting approach.
精氨酸酶-1(ARG-1)是癌症免疫治疗中一个很有前景的靶点,但其催化位点的小尺寸和高极性性质给抑制剂开发带来了重大挑战。最近已开发出一种通过靶向蛋白质寡聚化来诱导酶抑制的替代策略,该策略具有多种优势,如提高选择性、促进蛋白质降解以及潜在的亚化学计量抑制。在本研究中,我们证明只有三聚体ARG-1具有活性,这通过产生单体精氨酸酶-1得到了证实。通过驱动的定点诱变,我们确定了一个涉及五个负责ARG-1三聚化的关键氨基酸的变构位点。我们进一步证明,使用苯乙二醛对该口袋内的一个关键精氨酸残基进行共价修饰会破坏ARG-1的寡聚化。尽管苯乙二醛的效力有限,但它有效地支持了通过同源破坏抑制ARG-1的概念,验证了这种变构靶向方法。
