[he importance of mTOR hyperactivity and RICTOR amplification, and the associated targeted therapy possibilities in malignant tumours].

Failures of anti-tumour therapies and drug resistance initiate difficulties in cancer treatments often caused by alterations in signalling network activity, including PI3K/Akt/mTOR hyperactivity due to oncogenic mutations. In this review, we summarise the relevance of mTOR (mechanistic target of rapamycin) dysregulation identified decades ago, which is now known to be characteristic of many tumours. In this context, we present differences in activity, function and testability of mTOR kinase complexes (mTORC1 and mTORC2) differing in structure, regulatory mechanisms and inhibitor sensitivity. We highlight that genetic alterations, including RICTOR amplification and associated mTOR hyperactivity, are relevant in targeted therapy development. It is recommended to investigate mTOR profile activity in patients for whom mTOR inhibitor therapies are considered since the current first-generation mTOR inhibitors (rapamycin and analogues) may be ineffective in case of mTORC2 hyperactivity. Ongoing phase trials of new inhibitors and combination therapies are promising in advanced stage patients selected by molecular markers.