János Bolyai Research Scholarship of the Hungarian Academy of Sciences(TKP2021-NVA-15)
(FK-128404) Támogató: NKFIH
(K-142799) Támogató: NKFI
Az orvos-, egészségtudományi- és gyógyszerészképzés tudományos műhelyeinek fejlesztése(EFOP-3.6.3-VEKOP-16-2017-00009)
Támogató: EFOP-VEKOP
(ÚNKP-22-4-I-SE-12)
Alterations in mTOR signalling molecules, including RICTOR amplification, have been
previously described in many cancers, particularly associated with poor prognosis.
In this study, RICTOR copy number variation (CNV) results of diagnostic next-generation
sequencing (NGS) were analysed in 420 various human malignant tissues. RICTOR amplification
was tested by Droplet Digital PCR (ddPCR) and validated using the “gold standard”
fluorescence in situ hybridisation (FISH). Additionally, the consequences of Rictor
protein expression were also studied by immunohistochemistry. RICTOR amplification
was presumed in 37 cases with CNV ≥ 3 by NGS, among these, 16 cases (16/420; 3.8%)
could be validated by FISH, however, ddPCR confirmed only 11 RICTOR -amplified cases
with lower sensitivity. Based on these, neither NGS nor ddPCR could replace traditional
FISH in proof of RICTOR amplification. However, NGS could be beneficial to highlight
potential RICTOR -amplified cases. The obtained results of the 14 different tumour
types with FISH-validated RICTOR amplification demonstrate the importance of RICTOR
amplification in a broad spectrum of tumours. The newly described RICTOR -amplified
entities could initiate further collaborative studies with larger cohorts to analyse
the prevalence of RICTOR amplification in rare diseases. Finally, our and further
work could help to improve and expand future therapeutic opportunities for mTOR-targeted
therapies.