Towards Improved Peptidic α-Ketoamide Inhibitors of the Plasmodial Subtilisin-Like SUB1: Exploration of N-Terminal Extensions and Cyclic Constraints.

IF 3.6 4区医学 Q2 CHEMISTRY, MEDICINAL

ChemMedChem Pub Date : 2025-01-20 DOI:10.1002/cmdc.202400924

Anna K Puszko, Fernando A Batista, Abdelaziz Ejjoummany, Anthony Bouillon, Manon Maurel, Pauline Adler, Alice Legru, Mariano Martinez, Laura Ortega Varga, Margot Hadjadj, Pedro M Alzari, Arnaud Blondel, Ahmed Haouz, Jean-Christophe Barale, Jean-François Hernandez

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Abstract

After more than 15 years of decline, the Malaria epidemy has increased again since 2017, reinforcing the need to identify drug candidates active on new targets involved in at least two biological stages of the Plasmodium life cycle. The SUB1 protease, which is essential for parasite egress in both hepatic and blood stages, would meet these criteria. We previously reported the structure-activity relationship analysis of α-ketoamide-containing inhibitors encompassing positions P4-P2'. Despite compounds with high inhibitory potencies were identified, their antiparasitic activity remained limited, probably due to insufficient cell permeability. Here, we present our efforts to improve it through the N-terminal introduction of basic or hydrophobic moieties and/or cyclization. Compared to our previous reference compounds 1/2 (Ac-Ile/Cpg-Thr-Ala-AlaCO-Asp-Glu(Oall)-NH2), we identified analogues with improved Pf-/PvSUB1 inhibition (IC50 values in the 10-20 nM range) and parasite growth inhibition (up to 98% at 100 μM). The increase in potency was mainly observed when increasing the overall hydrophobicity of the compounds. Conjugation to the cell penetrating peptide octa-arginine was also favorable. Finally, the crystal structure of PvSUB1 in complex with compound 15 has been determined at 1.6 Å resolution. Compared to compound 1, this structure extended to the P5 residue and revealed two additional hydrogen bonds.

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改良的疟原虫样枯草杆菌SUB1肽α-酮酰胺抑制剂：n端延伸和循环约束的探索

在经历了15年多的下降之后，自2017年以来，疟疾流行再次增加，这加强了确定至少参与疟原虫生命周期两个生物学阶段的新靶点的候选药物的必要性。SUB1蛋白酶在肝脏和血液阶段对寄生虫的排出都是必不可少的，它符合这些标准。我们之前报道了包含位置P4-P2'的α-酮酰胺抑制剂的构效关系分析。尽管发现了具有高抑制活性的化合物，但其抗寄生虫活性仍然有限，可能是由于细胞渗透性不足。在这里，我们通过n端引入碱性或疏水基团和/或环化来改进它。与我们之前的参考化合物1/2 （Ac-Ile/Cpg-Thr-Ala-AlaCO-Asp-Glu(Oall)- nh2）相比，我们发现类似物具有更好的Pf-/PvSUB1抑制作用（IC50值在10-20 nM范围内）和寄生虫生长抑制作用（100 μM范围内高达98%）。效价的提高主要表现在化合物整体疏水性的提高。与细胞穿透肽八精氨酸的结合也是有利的。最后，以1.6 Å分辨率测定了PvSUB1与化合物15配合物的晶体结构。与化合物1相比，该结构延伸到P5残基，并显示出两个额外的氢键。

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

ChemMedChem 医学-药学

CiteScore

6.70

自引率

2.90%

发文量

280

审稿时长

1 months

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