Drug-induced expression of the RNA-binding protein HuR attenuates the adaptive response to BRAF inhibition in melanoma

Strategies that aim to limit the adaptive response to pathway inhibition in BRAF-mutated melanoma face the inherent limit of signaling redundancy and multiplicity of possible bypass mechanisms. Drug-induced expression of selected RNA-binding proteins, like the ubiquitously expressed HuR, has the pot...

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Published inBiochemical and biophysical research communications Vol. 517; no. 2; pp. 181 - 187
Main Authors Merat, Rastine, Bugi-Marteyn, Aurore, Wrobel, Ludovic J., Py, Céline, Daali, Youssef, Schwärzler, Christoph, Liaudet, Nicolas
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 17.09.2019
Subjects
Adaptive resistance
BRAF inhibitor
HuR
Melanoma
RNA-Binding protein
Targeted therapy
Adaptive resistance
BRAF inhibitor
HuR
RNA-Binding protein
Targeted therapy
Melanoma
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Abstract Strategies that aim to limit the adaptive response to pathway inhibition in BRAF-mutated melanoma face the inherent limit of signaling redundancy and multiplicity of possible bypass mechanisms. Drug-induced expression of selected RNA-binding proteins, like the ubiquitously expressed HuR, has the potential to differentially stabilize the expression of many genes involved in the compensatory mechanisms of adaptive response. Here, we detect in BRAF-mutated melanoma cell lines having a higher propensity for adaptive response and in non-responding melanoma tumors, a larger proportion of HuRLow cells in the expression distribution of HuR. Using knockdown experiments, we demonstrate, through expression profiling and phenotypic assays, that increasing the proportion of HuRLow cells favors the adaptive response to BRAF inhibition, provided that the HuRLow state stays reversible. The MAPK dependency of melanoma cells appears to be diminished as the proportion of HuRLow cells increases. In single-cell assays, we demonstrate that the HuRLow cells display plasticity in their growth expression profile. Importantly, the adaptive over-proliferating cells emerge in the subpopulation containing the HuRLow cells. Therapeutic concentrations of lithium salts, although they moderately increase the global expression of HuR, are sufficient to suppress the HuRLow cells, induce an overall less resistant expression profile and attenuate in a HuR-dependent manner the adaptive response of melanoma cells in ex vivo assays. The therapeutic effectiveness of this approach is also demonstrated in vivo in mice xenografts. This study has immediate clinical relevance for melanoma therapy and opens a new avenue of strategies to prevent the adaptive response to targeted cancer therapy. •A reversible HuRLow state favors adaptive response to BRAF inhibition in melanoma.•Lithium-induced attenuation of the adaptive response is dependent on HuR induction.•Lithium salts therapy attenuates in vivo the adaptive response to BRAF inhibition.
AbstractList Strategies that aim to limit the adaptive response to pathway inhibition in BRAF-mutated melanoma face the inherent limit of signaling redundancy and multiplicity of possible bypass mechanisms. Drug-induced expression of selected RNA-binding proteins, like the ubiquitously expressed HuR, has the potential to differentially stabilize the expression of many genes involved in the compensatory mechanisms of adaptive response. Here, we detect in BRAF-mutated melanoma cell lines having a higher propensity for adaptive response and in non-responding melanoma tumors, a larger proportion of HuR cells in the expression distribution of HuR. Using knockdown experiments, we demonstrate, through expression profiling and phenotypic assays, that increasing the proportion of HuR cells favors the adaptive response to BRAF inhibition, provided that the HuR state stays reversible. The MAPK dependency of melanoma cells appears to be diminished as the proportion of HuR cells increases. In single-cell assays, we demonstrate that the HuR cells display plasticity in their growth expression profile. Importantly, the adaptive over-proliferating cells emerge in the subpopulation containing the HuR cells. Therapeutic concentrations of lithium salts, although they moderately increase the global expression of HuR, are sufficient to suppress the HuR cells, induce an overall less resistant expression profile and attenuate in a HuR-dependent manner the adaptive response of melanoma cells in ex vivo assays. The therapeutic effectiveness of this approach is also demonstrated in vivo in mice xenografts. This study has immediate clinical relevance for melanoma therapy and opens a new avenue of strategies to prevent the adaptive response to targeted cancer therapy.
Strategies that aim to limit the adaptive response to pathway inhibition in BRAF-mutated melanoma face the inherent limit of signaling redundancy and multiplicity of possible bypass mechanisms. Drug-induced expression of selected RNA-binding proteins, like the ubiquitously expressed HuR, has the potential to differentially stabilize the expression of many genes involved in the compensatory mechanisms of adaptive response. Here, we detect in BRAF-mutated melanoma cell lines having a higher propensity for adaptive response and in non-responding melanoma tumors, a larger proportion of HuRLow cells in the expression distribution of HuR. Using knockdown experiments, we demonstrate, through expression profiling and phenotypic assays, that increasing the proportion of HuRLow cells favors the adaptive response to BRAF inhibition, provided that the HuRLow state stays reversible. The MAPK dependency of melanoma cells appears to be diminished as the proportion of HuRLow cells increases. In single-cell assays, we demonstrate that the HuRLow cells display plasticity in their growth expression profile. Importantly, the adaptive over-proliferating cells emerge in the subpopulation containing the HuRLow cells. Therapeutic concentrations of lithium salts, although they moderately increase the global expression of HuR, are sufficient to suppress the HuRLow cells, induce an overall less resistant expression profile and attenuate in a HuR-dependent manner the adaptive response of melanoma cells in ex vivo assays. The therapeutic effectiveness of this approach is also demonstrated in vivo in mice xenografts. This study has immediate clinical relevance for melanoma therapy and opens a new avenue of strategies to prevent the adaptive response to targeted cancer therapy. •A reversible HuRLow state favors adaptive response to BRAF inhibition in melanoma.•Lithium-induced attenuation of the adaptive response is dependent on HuR induction.•Lithium salts therapy attenuates in vivo the adaptive response to BRAF inhibition.
Author Liaudet, Nicolas
Merat, Rastine
Py, Céline
Daali, Youssef
Wrobel, Ludovic J.
Bugi-Marteyn, Aurore
Schwärzler, Christoph
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/31279529$$D View this record in MEDLINE/PubMed
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Issue 2
Keywords Adaptive resistance
BRAF inhibitor
HuR
RNA-Binding protein
Targeted therapy
Melanoma
Language English
License This is an open access article under the CC BY-NC-ND license.
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Snippet Strategies that aim to limit the adaptive response to pathway inhibition in BRAF-mutated melanoma face the inherent limit of signaling redundancy and...
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elsevier
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StartPage 181
SubjectTerms Adaptive resistance
BRAF inhibitor
HuR
Melanoma
RNA-Binding protein
Targeted therapy
Title Drug-induced expression of the RNA-binding protein HuR attenuates the adaptive response to BRAF inhibition in melanoma
URI https://dx.doi.org/10.1016/j.bbrc.2019.06.154
https://www.ncbi.nlm.nih.gov/pubmed/31279529
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