MOLECULAR MECHANISM OF NON-GENETIC  ADAPTATION TO BTK INHIBITOR
THERAPY  IN CLL

Přehled o publikaci

a 2024

MOLECULAR MECHANISM OF NON-GENETIC ADAPTATION TO BTK INHIBITOR THERAPY IN CLL

ONDRIŠOVÁ, Laura; Václav ŠEDA; Kryštof HLAVÁČ; Eva HOFERKOVÁ; Petra PAVELKOVÁ et al.

Basic information

Original name

MOLECULAR MECHANISM OF NON-GENETIC ADAPTATION TO BTK INHIBITOR THERAPY IN CLL

Authors

Edition

III. ČESKÝ HEMATOLOGICKÝ A TRANSFUZIOLOGICKÝ SJEZD in Transfuze a Hematologie Dnes, 2024

Other information

Language

English

Type of outcome

Konferenční abstrakta

Country of publisher

Czech Republic

Confidentiality degree

is not subject to a state or trade secret

References:

URL

Marked to be transferred to RIV

Yes

RIV identification code

RIV/00216224:14740/24:00137880

Organization

Středoevropský technologický institut – Repository – Repository

Keywords in English

CLL; BTK inhibitors; Akt pathways; ibrutinib therapy

Links

MUNI/A/1558/2023, interní kód Repo. NU23-08-00448, research and development project.

Changed: 20/12/2025 00:50, RNDr. Daniel Jakubík

Abstract

In the original language

lt; 0.05). Importantly, CLL cells obtained during ibrutinib therapy invivo were highly sensitive (90% apoptosis) to Akt inhibitor MK2206. RNA profiling of paired CLL samples obtained before and during ibrutinib (N = 22) or singleagent idelalisib therapy (N = 18) identified 16 differentially expressed mRNAs (with both drugs) involved in the PI3K-Akt pathway. Rictor induction was particularly notable since it is an essential assembly protein for mTORC2, which is known to phosphorylate Akt directly on S473 (Sarbassov et al. 2005). Analysis of samples obtained during therapy and genome-editing experiments in MEC1 cells revealed that transcription factor FoxO1 is directly responsible for Rictor/pAkt activation during ibrutinib treatment, and FOXO1 is required for adaptation to BTK inhibitors. FoxO1 inhibitor (AS1842856) decreased pAkt levels, induced apoptosis alone (~40% CLL cell killing) or more potently in combination with ibrutinib (~60% apoptosis; N = 7). In summary we describe the first non-genetic adaptation to targeted therapy with BCR inhibitors in CLL.

Files attached

https://is.muni.cz/publication/2457518/Molecular_Mechanism_of_non-genetic_adaption.pdf

Cite

ONDRIŠOVÁ, Laura; Václav ŠEDA; Kryštof HLAVÁČ; Eva HOFERKOVÁ; Petra PAVELKOVÁ; Lenka KOŠŤÁLOVÁ; Daniel FILIP; Pedro FARIA ZENI; Anna PANOVSKÁ; Karla PLEVOVÁ; Šárka POSPÍŠILOVÁ; M. SIMKOVIC; F. VRBACKÝ; Daniel LYSÁK; MS. DAVIDS; JI. MARTIN-SUBERO; JR. BROWN; Michael DOUBEK; Francesco FORCONI; Jiří MAYER and Marek MRÁZ. MOLECULAR MECHANISM OF NON-GENETIC ADAPTATION TO BTK INHIBITOR THERAPY IN CLL. In III. ČESKÝ HEMATOLOGICKÝ A TRANSFUZIOLOGICKÝ SJEZD in Transfuze a Hematologie Dnes. 2024.

@proceedings{68817,
   author = {Ondrišová, Laura and Šeda, Václav and Hlaváč, Kryštof and Hoferková, Eva and Pavelková, Petra and Košťálová, Lenka and Filip, Daniel and Faria Zeni, Pedro and Panovská, Anna and Plevová, Karla and Pospíšilová, Šárka and Simkovic, M. and Vrbacký, F. and Lysák, Daniel and Davids, MS. and MartinandSubero, JI. and Brown, JR. and Doubek, Michael and Forconi, Francesco and Mayer, Jiří and Mráz, Marek},
   booktitle = {III. ČESKÝ HEMATOLOGICKÝ A TRANSFUZIOLOGICKÝ SJEZD in Transfuze a Hematologie Dnes},
   keywords = {CLL; BTK inhibitors; Akt pathways; ibrutinib therapy},
   language = {eng},
   title = {MOLECULAR MECHANISM OF NON-GENETIC ADAPTATION TO BTK INHIBITOR THERAPY IN CLL},
   url = {https://www.hematology2024.cz/sbornik-abstrakt-zaznam-sjezdu/},
   year = {2024}
}

TY  - CONF
ID  - 68817
AU  - Ondrišová, Laura - Šeda, Václav - Hlaváč, Kryštof - Hoferková, Eva - Pavelková, Petra - Košťálová, Lenka - Filip, Daniel - Faria Zeni, Pedro - Panovská, Anna - Plevová, Karla - Pospíšilová, Šárka - Simkovic, M. - Vrbacký, F. - Lysák, Daniel - Davids, MS. - Martin-Subero, JI. - Brown, JR. - Doubek, Michael - Forconi, Francesco - Mayer, Jiří - Mráz, Marek
PY  - 2024
TI  - MOLECULAR MECHANISM OF NON-GENETIC ADAPTATION TO BTK INHIBITOR THERAPY IN CLL
KW  - CLL
KW  - BTK inhibitors
KW  - Akt pathways
KW  - ibrutinib therapy
UR  - https://www.hematology2024.cz/sbornik-abstrakt-zaznam-sjezdu/
N2  - lt; 0.05). Importantly, CLL cells obtained during ibrutinib therapy invivo were highly sensitive (90% apoptosis) to Akt inhibitor MK2206. RNA profiling of paired CLL samples obtained before and during ibrutinib (N = 22) or singleagent idelalisib therapy (N = 18) identified 16 differentially expressed mRNAs (with both drugs) involved in the PI3K-Akt pathway. Rictor induction was particularly notable since it is an essential assembly protein for mTORC2, which is known to phosphorylate Akt directly on S473 (Sarbassov et al. 2005). Analysis of samples obtained during therapy and genome-editing experiments in MEC1 cells revealed that transcription factor FoxO1 is directly responsible for Rictor/pAkt activation during ibrutinib treatment, and FOXO1 is required for adaptation to BTK inhibitors. FoxO1 inhibitor (AS1842856) decreased pAkt levels, induced apoptosis alone (~40% CLL cell killing) or more potently in combination with ibrutinib (~60% apoptosis; N = 7). In summary we describe the first non-genetic adaptation to targeted therapy with BCR inhibitors in CLL.
ER  -

ONDRIŠOVÁ, Laura; Václav ŠEDA; Kryštof HLAVÁČ; Eva HOFERKOVÁ; Petra PAVELKOVÁ; Lenka KOŠŤÁLOVÁ; Daniel FILIP; Pedro FARIA ZENI; Anna PANOVSKÁ; Karla PLEVOVÁ; Šárka POSPÍŠILOVÁ; M. SIMKOVIC; F. VRBACKÝ; Daniel LYSÁK; MS. DAVIDS; JI. MARTIN-SUBERO; JR. BROWN; Michael DOUBEK; Francesco FORCONI; Jiří MAYER and Marek MRÁZ. MOLECULAR MECHANISM OF NON-GENETIC ADAPTATION TO BTK INHIBITOR THERAPY IN CLL. In \textit{III. ČESKÝ HEMATOLOGICKÝ A TRANSFUZIOLOGICKÝ SJEZD in Transfuze a Hematologie Dnes}. 2024.

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