Abstract
The structure of the isoflavone compound, 3-(2,3-dihydrobenzo[b][1,4]dioxin-6-yl)-6,7-dimethoxy-4H-chromen-4-one (5), was elucidated by 2D-NMR spectra, mass spectrum and single crystal X-ray crystallography. Compound 5, C19H16O6, was crystallized in the monoclinic space group P21/c with the cell parameters; a = 12.0654(5) Å, b =11.0666(5) Å, c = 23.9550(11) Å, β = 101.3757(16)°, V = 3135.7(2) Å3, and Z = 8. The asymmetric unit of compound 5 consists of two independent molecules 5I and 5II. Both molecules exhibit the disorder of each methylene group present in their 1,4-dioxane rings with relative occupancies of 0.599(10) (5I) and 0.812(9) (5II) for the major component A, and 0.401(10) (5I) and 0.188(9) (5II) for the minor component B, respectively. Each independent molecule revealed remarkable discrepancies in bond lengths, bond angles and dihedral angles in the disordered regions of 1,4-dioxane rings. The common feature of the molecules 5I and 5II are a chromone ring and a benzodioxin ring, which are more tilted towards each other in 5I than in 5II. An additional difference between the molecules is seen in the relative disposition of two methoxy substituents. In the crystal, the molecule 5II forms inversion dimers which are linked into chains along an a-axis direction by intermolecular C–H⋯O interactions. Additional C–H⋯O hydrogen bonds connected the molecules 5I and 5II each other to form a three-dimensional network. Hirshfeld surface analysis evaluated the relative intermolecular interactions which contribute to each crystal structure 5I and 5II. Western blot analysis demonstrated that compound 5 inhibited the TNFα-induced phosphorylation of IKKα/β, resulting in attenuating further downstream NF-κB signaling. A molecular docking study predicted the possible binding of compound 5 to the active site of IKKβ. Compound 5 showed an inhibitory effect on the clonogenicity of HCT116 human colon cancer cells. These results suggest that compound 5 can be used as a platform for the development of an anti-cancer agent targeting IKKα/β.
Highlights
The NF-κB family of transcription factors plays crucial roles in cellular proliferation, survival, and immune responses
Upon cellular activation by extracellular stimuli, the upstream inhibitor of κB (IκB) kinase (IKK) complex consisting of IKKα, IKKβ, and IKKγ phosphorylates IκB to degrade IκB, allowing the activation of NF-κB [3]
The title compound 5 was synthesized as shown in Scheme 1 by literature methods [34,44,45]
Summary
The NF-κB family of transcription factors plays crucial roles in cellular proliferation, survival, and immune responses These consist of five members, including c-Rel, p65/RelA, RelB, p50/NF-κB1, and p52/NF-κB2 [1]. Tumor necrosis factor α (TNFα) is a potent pro-inflammatory cytokine that promotes tumor progression in most types of malignant tumors [5] It stimulates NF-κB through the activation of IKK [6]. It was intended to investigate the anticancer activity through the IKKβ inhibitory effect after synthesizing the isoflavone compound 5 and revealing its solid-state structure by single crystal x-ray diffraction
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