FOXO1-RICTOR AXIS induces adaptive increase in AKT activity during BCR inhibitor therapy in CLL: Implications for combination therapy.

• Authors: ONDRIŠOVÁ Laura; ŠEDA Václav; CHIODIN Giorgia; HLAVÁČ Kryštof; KOŠŤÁLOVÁ Lenka; FILIP Daniel; FARIA ZENI Pedro; PANOVSKÁ Anna; PLEVOVÁ Karla; POSPÍŠILOVÁ Šárka; ŠIMKOVIČ Martin; VRBACKÝ Filip; LYSÁK Daniel; FERNANDEZ Stacey M.; DAVIDS MS.; MAIQUES-DIAZ Alba; CHARALAMPOPOULOU Stella; MARTIN-SUBERO Jose I.; BROWN Jennifer R.; DOUBEK Michael; FORCONI Francesco; MAYER Jiří; MRÁZ Marek
• Year of publication: 2023
• Type: Conference abstract
• MU Faculty or unit: Central European Institute of Technology

Attached files

• Ondrisova_et_al._EHA2023.pdf

• Description: Genetic mechanisms of resistance to BCR inhibitors in CLL have been extensively described. However, it remainsunknown whether non-genetic adaptation mechanisms to BTK inhibitors might exist. We focused on the possible role of the Akt pathway in adapting to BCR inhibitors since, in mouse models, PI3K-Akt activation is the only known factor that rescues the apoptosis induced by BCR deletion in mature B cells. We aim to describe non-genetic mechanisms of adaptation to BCR inhibitor therapy. We performed transcriptome profiling (Illumina) and analyzed samples obtained from CLL patients before and during ibrutinib or idelalisib therapy and performed gene editing in MEC1 cells to reveal the functional role of FoxO1/Rictor.

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