From: Flavonoids target different molecules of autophagic and metastatic pathways in cancer cells
Flavonoid | Cancer cell | Decreasing in expression | Inactivation | Increasing of expression or activation | Ref |
---|---|---|---|---|---|
Pancreas | MMP9, NFκB | - | - | [46] | |
Melanoma | βcatenin, WNT, DVL | - | - | [118] | |
Fisetin | Colon | - | NFκB, βcatenin | - | [119] |
Blood | - | NFκB, IKK | - | [120] | |
Larynge | - | NFκB | - | [47] | |
Fisetin + erlotinib | Lung | SNAIL | - | E-cadherin | [121] |
Fistein + paclitaxel | Lung | SNAIL2, TWIST, MMP2 | - | - | [122] |
Breast | VEGF, MMP9 | JAK1, STAT3, TWIST | - | ||
Blood | βcatenin | - | - | [127] | |
Quercetin | Human teratocarcinoma | - | βcatenin | - | [128] |
Lung | - | SNAIL1/2, TWIST, N-cadherin | E-cadherin | [129] | |
Hela | NFκB | - | IKb | [130] | |
Colon | - | βcatenin | - | [131] | |
Prostate | - | NFκB | IKb | [132] | |
Breast | VEGF, MMP9 | JAK1, JAK2, STAT3 | - | ||
Apigenin | Lung | MMP2, MMP9, GSK3β | SNAIL1/2, N-cadherin | - | |
Colorectal | AXIN, βcatenin | βcatenin | - | ||
Osteosarcoma | βcatenin | - | - | [59] | |
Prostate | MMP9 | - | - | [137] | |
Pancreas | MMP2, MMP7, MMP9, STAT3 | STAT3 | - | [138] | |
Luteolin | Glioblastoma | MMP2, MMP9 | N-cadherin, βcatenin | E-cadherin | [139] |
Breast | SNAIL1/2, N-cadherin, βcatenin | - | E-cadherin | [64] | |
Colorectal | MMP9 | - | - | [65] | |
Silibinin | Bladder | - | GSK3β, βcatenin | - | [56] |
Silibinin | Kidney | MMP9 | MMP9 | - | [140] |
Curcumin | Glioblastoma | - | NFκB | - | [141] |
Curcumin | Melanoma | - | NFκB, IKK | - | [142] |
Butein | Liver | MMP9 | MMP9 | - | [143] |
Butein | Prostate | IKK | NFκB | IKb | [62] |
Chalcone | Colon | - | STAT3 | - | [63] |
Resveratrol | Colorectal | - | NFκB, MMP9, MMP13 | - | [144] |
Ginger + Gelam honey | Colon | βcatenin, GSK3β | - | - | [145] |
Epigallocatechin-3-gallate | Prostate | - | NFκB | - | [146] |
Baicalein | Breast | GSK3β | GSK3β | - | [147] |
Cardamonin | Breast | GSK3β, VEGF | βcatenin | - | [148] |