In silico Identification of Natural Compounds as Potential TrkA Inhibitors for Anticancer Drug Development

AuthorMujtaba Fadhilen
AuthorDhurgham Al-Fahaden
AuthorFaizul Azamen
AuthorAsadollah Asadien
OrcidAsadollah Asadi [0000-0003-3314-2948]en
Issued Date2026-12-31en
AbstractBackground: Tropomyosin receptor tyrosine kinase A (TrkA) is essential for cancer cell migration and for stabilizing focal adhesions required for attachment to the extracellular matrix. However, resistance to inhibitors targeting the ATP-binding pocket of the TrkA kinase domain complicates treatment. These inhibitors block ATP binding, which is required for TrkA activation, thereby disrupting downstream signaling pathways involved in cell proliferation and survival in cancers characterized by TrkA overexpression or mutation. Objectives: This study aimed to identify natural compounds as potential TrkA inhibitors for anticancer drug development. The identified compounds exhibited higher binding affinity and greater stability than the control compounds. Methods: Virtual screening, molecular dynamics simulations, MM-GBSA free energy calculations, and principal component analysis were performed using the Schrödinger Desmond software to screen a comprehensive library from the NPACT and PhytoHub databases for potential novel TrkA inhibitors. Results: Two promising inhibitors derived from natural compounds, PHUB000399 and NPACT01417, were identified. Toxicity assessments indicated that both compounds had lower toxicity levels (class 5) than Entrectinib, the reference inhibitor (class 4); the molecular weights of PHUB000399, NPACT01417, and Entrectinib were 275.25, 316.35, and 560.64 g/mol, respectively. Docking studies showed that PHUB000399 and NPACT01417 had superior binding affinities, with grid scores of -13.239 and -13.103, respectively, compared with the co-crystal ligand (-12.567) and Entrectinib (-10.996). Molecular dynamics simulations indicated that the TrkA-PHUB000399 and TrkA-NPACT01417 complexes were more stable than the TrkA-Entrectinib complex. The calculated binding free energies for TrkA-PHUB000399 and TrkA-NPACT01417 were -87.74 and -86.09 kcal/mol, respectively, exceeding those of the co-crystal ligand (-84.14 kcal/mol) and Entrectinib (-73.03 kcal/mol). Conclusions: These findings suggest that NPACT01417 and PHUB000399 are promising candidates for targeting cancer cell migration, with binding affinities comparable to those of established inhibitors. This study provides valuable insights for the development of effective anticancer therapies.en
DOIhttps://doi.org/10.5812/ijpr-166946en
URIhttps://brieflands.com/journals/ijpr/articles/166946en
KeywordTrkAen
KeywordCancer Cell Migrationen
KeywordDockingen
KeywordMolecular Dynamics Simulationsen
KeywordMM-GBSAen
PublisherBrieflandsen
TitleIn silico Identification of Natural Compounds as Potential TrkA Inhibitors for Anticancer Drug Developmenten
TypeResearch Articleen

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