Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis

INTRODUCTION: The PI3K/AKT pathway is activated in 43-70% of breast cancer (BC)-patients and promotes the metastatic potential of BC cells by increasing cell proliferation, invasion and radioresistance. Therefore, AKT1-inhibition in combination with radiotherapy might be an effective treatment optio...

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Autores principales: Kempska, Joanna, Oliveira-Ferrer, Leticia, Grottke, Astrid, Qi, Minyue, Alawi, Malik, Meyer, Felix, Borgmann, Kerstin, Hamester, Fabienne, Eylmann, Kathrin, Rossberg, Maila, Smit, Daniel J., Jücker, Manfred, Laakmann, Elena, Witzel, Isabell, Schmalfeldt, Barbara, Müller, Volkmar, Legler, Karen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Oncology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10358765/
https://www.ncbi.nlm.nih.gov/pubmed/37483521
http://dx.doi.org/10.3389/fonc.2023.1129682
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author Kempska, Joanna
Oliveira-Ferrer, Leticia
Grottke, Astrid
Qi, Minyue
Alawi, Malik
Meyer, Felix
Borgmann, Kerstin
Hamester, Fabienne
Eylmann, Kathrin
Rossberg, Maila
Smit, Daniel J.
Jücker, Manfred
Laakmann, Elena
Witzel, Isabell
Schmalfeldt, Barbara
Müller, Volkmar
Legler, Karen
author_facet Kempska, Joanna
Oliveira-Ferrer, Leticia
Grottke, Astrid
Qi, Minyue
Alawi, Malik
Meyer, Felix
Borgmann, Kerstin
Hamester, Fabienne
Eylmann, Kathrin
Rossberg, Maila
Smit, Daniel J.
Jücker, Manfred
Laakmann, Elena
Witzel, Isabell
Schmalfeldt, Barbara
Müller, Volkmar
Legler, Karen
author_sort Kempska, Joanna
collection PubMed
description INTRODUCTION: The PI3K/AKT pathway is activated in 43-70% of breast cancer (BC)-patients and promotes the metastatic potential of BC cells by increasing cell proliferation, invasion and radioresistance. Therefore, AKT1-inhibition in combination with radiotherapy might be an effective treatment option for triple-negative breast cancer (TNBC)-patients with brain metastases. METHODS: The impact of AKT1-knockout (AKT1_KO) and AKT-inhibition using Ipatasertib on MDA-MB-231 BR cells was assessed using in vitro cell proliferation and migration assays. AKT1-knockout in MDA-MB-231BR cells was performed using CRISPR/Cas9. The effect of AKT1-knockout on radiosensitivity of MDA-MB-231BR cell lines was determined via colony formation assays after cell irradiation. To detect genomic variants in AKT1_KO MDA-MB-231BR cells, whole-genome sequencing (WGS) was performed. RESULTS: Pharmacological inhibition of AKT with the pan-AKT inhibitor Ipatasertib led to a significant reduction of cell viability but did not impact cell migration. Moreover, only MDA-MB-231BR cells were sensitized following Ipatasertib-treatment. Furthermore, specific AKT1-knockout in MDA-MB-231BR showed reduced cell viability in comparison to control cells, with significant effect in one of two analyzed clones. Unexpectedly, AKT1 knockout led to increased cell migration and clonogenic potential in both AKT1_KO clones. RNAseq-analysis revealed the deregulation of CTSO, CYBB, GPR68, CEBPA, ID1, ID4, METTL15, PBX1 and PTGFRN leading to the increased cell migration, higher clonogenic survival and decreased radiosensitivity as a consequence of the AKT1 knockout in MDA-MB-231BR. DISCUSSION: Collectively, our results demonstrate that Ipatasertib leads to radiosensitization and reduced cell proliferation of MDA-MB-231BR. AKT1-inhibition showed altered gene expression profile leading to modified cell migration, clonogenic survival and radioresistance in MDA-MB-231BR. We conclude, that AKT1-inhibition in combination with radiotherapy contribute to novel treatment strategies for breast cancer brain metastases.
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spelling pubmed-103587652023-07-21 Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis Kempska, Joanna Oliveira-Ferrer, Leticia Grottke, Astrid Qi, Minyue Alawi, Malik Meyer, Felix Borgmann, Kerstin Hamester, Fabienne Eylmann, Kathrin Rossberg, Maila Smit, Daniel J. Jücker, Manfred Laakmann, Elena Witzel, Isabell Schmalfeldt, Barbara Müller, Volkmar Legler, Karen Front Oncol Oncology INTRODUCTION: The PI3K/AKT pathway is activated in 43-70% of breast cancer (BC)-patients and promotes the metastatic potential of BC cells by increasing cell proliferation, invasion and radioresistance. Therefore, AKT1-inhibition in combination with radiotherapy might be an effective treatment option for triple-negative breast cancer (TNBC)-patients with brain metastases. METHODS: The impact of AKT1-knockout (AKT1_KO) and AKT-inhibition using Ipatasertib on MDA-MB-231 BR cells was assessed using in vitro cell proliferation and migration assays. AKT1-knockout in MDA-MB-231BR cells was performed using CRISPR/Cas9. The effect of AKT1-knockout on radiosensitivity of MDA-MB-231BR cell lines was determined via colony formation assays after cell irradiation. To detect genomic variants in AKT1_KO MDA-MB-231BR cells, whole-genome sequencing (WGS) was performed. RESULTS: Pharmacological inhibition of AKT with the pan-AKT inhibitor Ipatasertib led to a significant reduction of cell viability but did not impact cell migration. Moreover, only MDA-MB-231BR cells were sensitized following Ipatasertib-treatment. Furthermore, specific AKT1-knockout in MDA-MB-231BR showed reduced cell viability in comparison to control cells, with significant effect in one of two analyzed clones. Unexpectedly, AKT1 knockout led to increased cell migration and clonogenic potential in both AKT1_KO clones. RNAseq-analysis revealed the deregulation of CTSO, CYBB, GPR68, CEBPA, ID1, ID4, METTL15, PBX1 and PTGFRN leading to the increased cell migration, higher clonogenic survival and decreased radiosensitivity as a consequence of the AKT1 knockout in MDA-MB-231BR. DISCUSSION: Collectively, our results demonstrate that Ipatasertib leads to radiosensitization and reduced cell proliferation of MDA-MB-231BR. AKT1-inhibition showed altered gene expression profile leading to modified cell migration, clonogenic survival and radioresistance in MDA-MB-231BR. We conclude, that AKT1-inhibition in combination with radiotherapy contribute to novel treatment strategies for breast cancer brain metastases. Frontiers Media S.A. 2023-07-06 /pmc/articles/PMC10358765/ /pubmed/37483521 http://dx.doi.org/10.3389/fonc.2023.1129682 Text en Copyright © 2023 Kempska, Oliveira-Ferrer, Grottke, Qi, Alawi, Meyer, Borgmann, Hamester, Eylmann, Rossberg, Smit, Jücker, Laakmann, Witzel, Schmalfeldt, Müller and Legler https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Oncology
Kempska, Joanna
Oliveira-Ferrer, Leticia
Grottke, Astrid
Qi, Minyue
Alawi, Malik
Meyer, Felix
Borgmann, Kerstin
Hamester, Fabienne
Eylmann, Kathrin
Rossberg, Maila
Smit, Daniel J.
Jücker, Manfred
Laakmann, Elena
Witzel, Isabell
Schmalfeldt, Barbara
Müller, Volkmar
Legler, Karen
Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis
title Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis
title_full Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis
title_fullStr Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis
title_full_unstemmed Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis
title_short Impact of AKT1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis
title_sort impact of akt1 on cell invasion and radiosensitivity in a triple negative breast cancer cell line developing brain metastasis
topic Oncology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10358765/
https://www.ncbi.nlm.nih.gov/pubmed/37483521
http://dx.doi.org/10.3389/fonc.2023.1129682
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