Efekti izoksantohumola na tretman solidnog i metastatskog melanoma: direktan uticaj i interakcija sa hemioterapijom
Effects of isoxanthohumol on the treatment of solid and metastatic melanoma: direct impact and interaction with chemotherapy
Abstract:
Isoxanthohumol (IXN), a prenylflavonoid from hops, owns a spectrum of biological activities important for the therapy of numerous pathological conditions. In this study, its influence on solid and metastatic melanoma models in vitro and in vivo was investigated, in the context of independent action on melanoma cells of different aggressiveness and interaction with chemotherapy. The effects of IXN were consistent in all cell lines ‒ from the low-invasive mouse-derived B16 form and highly invasive line of human origin A-375 to metastatic clone B16-F10. In addition to proliferation inhibition observed in all cell lines, IXN treatment led to differentiation and loss of pluripotent properties of B16 and A-375 cells, with the presence of apoptosis and significant changes in signaling pathways relevant to these processes. On the other hand, along with induction of apoptosis and autophagy in B16-F10 clones, IXN decreased the clonogenic potential in the population of surviving cells and, by disrupting integrin signaling, reduced adhesion, migration and, invasiveness. Aside from a clear trend in the suppression of solid and metastatic melanoma, IXN potentiated the action of paclitaxel (PCT) in vitro and in vivo. Unlike concomitant treatment, the 7-days application of IXN before the start of chemotherapy made the subtherapeutic dose of PCT effective in the metastatic melanoma model. This data, along with histopathological confirmation of changes in cells’ phenotype in metastases, underlined the importance of induction of differentiation for chemotherapy outcome. The described results represent the first proof of IXN antitumor activity in vivo, as well as a significant contribution to a new concept of differentiation therapy in the treatment of solid and metastatic malignancies.
Keywords:
migracija; invazija; hemosenzitizacija; melanoma; prenylflavonoids; chemotherapy; apoptosis; autophagy; differentiation; adhesion; migration; invasion; chemosensitizationSource:
Faculty of Biology, University of Belgrade, 2021, 1-112Funding / projects:
- Molecular mechanisms of physiological and pharmacological control of inflammation and cancer (RS-MESTD-Basic Research (BR or ON)-173013)