Abstract
Induction of heme oxygenase 1 (HO‐1) favors immune‐escape in BRAFV600 melanoma cells treated with Vemurafenib/PLX4032 under standard cell culture conditions. However, the oxygen tension under standard culture conditions (~18 kPa O2) is significantly higher than the physiological oxygen levels encountered in vivo. In addition, cancer cells in vivo are often modified by hypoxia. In this study, MeOV‐1 primary melanoma cells bearing the BRAFV600E mutation, were adapted to either 5 kPa O2 (physiological normoxia) or 1 kPa O2 (hypoxia) and then exposed to 10 μM PLX4032. PLX4032 abolished ERK phosphorylation, reduced Bach1 expression and increased HO‐1 levels independent of pericellular O2 tension. Moreover, cell viability was significantly reduced further in cells exposed to PLX4032 plus Tin mesoporphyrin IX, a HO‐1 inhibitor. Notably, our findings provide the first evidence that HO‐1 inhibition in combination with PLX4032 under physiological oxygen tension and hypoxia restores and increases the expression of the NK ligands ULBP3 and B7H6 compared to cells exposed to PLX4032 alone. Interestingly, although silencing NRF2 prevented PLX4032 induction of HO‐1, other NRF2 targeted genes were unaffected, highlighting a pivotal role of HO‐1 in melanoma resistance and immune escape. The present findings may enhance translation and highlight the potential of the HO‐1 inhibitors in the therapy of BRAFV600 melanomas.
Original language | English |
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Article number | 1171 |
Journal | Antioxidants |
Volume | 11 |
Issue number | 6 |
DOIs | |
Publication status | Published - 1 Jun 2022 |
Keywords
- HO‐1
- hypoxia
- melanoma
- NK ligands
- NRF2
- oxygen tension
- physiological normoxia
- response and/or resistance to therapy
- target therapy