Small-Molecule Allosteric Inhibitors of Human Aspartate Transcarbamoylase Suppress Proliferation of Bone Osteosarcoma Epithelial Cells.
Chao WangBidong ZhangYingying CongXiaochen DuSiyao ChenLidia VisserAngel Jonathan Ruiz-MorenoLili ZhangFulvio M ReggioriAlexander S S DömlingMatthew R GrovesPublished in: ChemMedChem (2024)
Aspartate transcarbamoylase (ATC) is the first committed step in de novo pyrimidine biosynthesis in eukaryotes and plants. A potent transition state analog of human ATCase (PALA) has previously been assessed in clinical trials for the treatment of cancer, but was ultimately unsuccessful. Additionally, inhibition of this pathway has been proposed to be a target to suppress cell proliferation in E. coli, the malarial parasite and tuberculosis. In this manuscript we screened a 70-member library of ATC inhibitors developed against the malarial and tubercular ATCases for inhibitors of the human ATC. Four compounds showed low nanomolar inhibition (IC 50 30-120 nM) in an in vitro activity assay. These compounds significantly outperform PALA, which has a triphasic inhibition response under identical conditions, in which significant activity remains at PALA concentrations above 10 μM. Evidence for a druggable allosteric pocket in human ATC is provided by both in vitro enzyme kinetic, homology modeling and in silico docking. These compounds also suppress the proliferation of U2OS osteoblastoma cells by promoting cell cycle arrest in G0/G1 phase. This report provides the first evidence for an allosteric pocket in human ATC, which greatly enhances its druggability and demonstrates the potential of this series in cancer therapy.
Keyphrases
- small molecule
- endothelial cells
- cell cycle arrest
- clinical trial
- cell proliferation
- induced pluripotent stem cells
- cancer therapy
- pluripotent stem cells
- cell death
- mycobacterium tuberculosis
- emergency department
- signaling pathway
- randomized controlled trial
- pi k akt
- hepatitis c virus
- photodynamic therapy
- hiv aids
- oxidative stress
- combination therapy
- phase iii
- human health
- papillary thyroid
- soft tissue