Neuroprotective and anticancer effects of 7­Methoxyheptaphylline via the TAK1 pathway.

ABSTRACT

7­Methoxyheptaphylline (7­MH) is a carbazole extracted from Clausena harmandiana, a medicinal plant that is used to treat headaches and stomachaches. The aim of the present study was to examine the neuroprotective effects and anticancer activity of 7­MH. Cell death was assessed using an MTT assay and flow cytometry. The expression of apoptosis­related proteins was determined by western blot analysis. An animal model was used to test anti­metastasis. The interactions between 7­MH and the molecular target were observed using molecular docking. The results revealed that 7­MH provided protection against hydrogen peroxide (H2O2)­induced neuronal cell death. In cancer cells, 7­MH induced SH­SY5Y, 4T1, HT29, HepG2, and LNCaP cell death. 7­MH inhibited metastasis of HT29 cells in vitro and 4T1­Luc cells in vitro and in vivo. 7­MH inhibited proteins, including P­glycogen synthase kinase (GSK)­3, and cleaved caspase­3, but it activated anti­apoptotic proteins in H2O2­induced SH­SY5Y cell death. By contrast, 7­MH activated the cleaving of caspase­3 and GSK­3, but it suppressed anti­apoptotic proteins in SH­SY5Y cells. 7­MH reduced the levels of NF­κB and STAT3 in 4T1 cells; phospho­p65, Erk, and MAPK13 in LNCaP cells; and phospho­Erk and matrix metalloproteinase­9 in HT29 cells. Molecular docking analysis showed that 7­MH targets TAK1 kinase. The present study indicated that 7­MH induced apoptosis of cancer cells and provided protection against H2O2­induced neuron cell death via TAK1 kinase.