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Impact of dual mTORC1/2 mTOR kinase inhibitor AZD8055 on acquired endocrine resistance in breast cancer in vitro.

Breast cancer research : BCR (2014-01-25)
Nicola J Jordan, Carol M Dutkowski, Denise Barrow, Huw J Mottram, Iain R Hutcheson, Robert I Nicholson, Sylvie M Guichard, Julia M W Gee
RESUMEN

Upregulation of PI3K/Akt/mTOR signalling in endocrine-resistant breast cancer (BC) has identified mTOR as an attractive target alongside anti-hormones to control resistance. RAD001 (everolimus/Afinitor®), an allosteric mTOR inhibitor, is proving valuable in this setting; however, some patients are inherently refractory or relapse during treatment requiring alternative strategies. Here we evaluate the potential for novel dual mTORC1/2 mTOR kinase inhibitors, exemplified by AZD8055, by comparison with RAD001 in ER + endocrine resistant BC cells. In vitro models of tamoxifen (TamR) or oestrogen deprivation resistance (MCF7-X) were treated with RAD001 or AZD8055 alone or combined with anti-hormone fulvestrant. Endpoints included growth, cell proliferation (Ki67), viability and migration, with PI3K/AKT/mTOR signalling impact monitored by Western blotting. Potential ER cross-talk was investigated by immunocytochemistry and RT-PCR. RAD001 was a poor growth inhibitor of MCF7-derived TamR and MCF7-X cells (IC50 ≥1 μM), rapidly inhibiting mTORC1 but not mTORC2/AKT signalling. In contrast AZD8055, which rapidly inhibited both mTORC1 and mTORC2/AKT activity, was a highly effective (P <0.001) growth inhibitor of TamR (IC50 18 nM) and MCF7-X (IC50 24 nM), and of a further T47D-derived tamoxifen resistant model T47D-tamR (IC50 19 nM). AZD8055 significantly (P <0.05) inhibited resistant cell proliferation, increased cell death and reduced migration. Furthermore, dual treatment of TamR or MCF7-X cells with AZD8055 plus fulvestrant provided superior control of resistant growth versus either agent alone (P <0.05). Co-treating with AZD8055 alongside tamoxifen (P <0.01) or oestrogen deprivation (P <0.05) also effectively inhibited endocrine responsive MCF-7 cells. Although AZD8055 inhibited oestrogen receptor (ER) ser167 phosphorylation in TamR and MCF7-X, it had no effect on ER ser118 activity or expression of several ER-regulated genes, suggesting the mTOR kinase inhibitor impact was largely ER-independent. The capacity of AZD8055 for ER-independent activity was further evidenced by growth inhibition (IC5018 and 20 nM) of two acquired fulvestrant resistant models lacking ER. This is the first report demonstrating dual mTORC1/2 mTOR kinase inhibitors have potential to control acquired endocrine resistant BC, even under conditions where everolimus fails. Such inhibitors may prove of particular benefit when used alongside anti-hormonal treatment as second-line therapy in endocrine resistant disease, and also potentially alongside anti-hormones during the earlier endocrine responsive phase to hinder development of resistance.

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Sigma-Aldrich
Peróxido de hidrógeno solution, contains inhibitor, 30 wt. % in H2O, ACS reagent
Sigma-Aldrich
Peróxido de hidrógeno solution, 30 % (w/w) in H2O, contains stabilizer
Sigma-Aldrich
4-hidroxitamoxifeno, ≥70% Z isomer (remainder primarily E-isomer)
Sigma-Aldrich
Peróxido de hidrógeno solution, 50 wt. % in H2O, stabilized
Millipore
Peróxido de hidrógeno solution, 3%, suitable for microbiology
Supelco
Peróxido de hidrógeno solution, ≥30%, for trace analysis
Sigma-Aldrich
Peróxido de hidrógeno solution, contains inhibitor, 35 wt. % in H2O
Sigma-Aldrich
Peróxido de hidrógeno solution, 34.5-36.5%
Supelco
Peróxido de hidrógeno solution, 30 % (w/w), for ultratrace analysis
Sigma-Aldrich
Peróxido de hidrógeno solution, contains inhibitor, 30 wt. % in H2O, meets USP testing specifications
Supelco
4-hidroxitamoxifeno, analytical standard, (E) and (Z) isomers (50:50)
Sigma-Aldrich
Peróxido de hidrógeno solution, tested according to Ph. Eur.
Supelco
4-hidroxitamoxifeno, (E) and (Z) isomers (50:50), analytical standard