Phenotypic plasticity is associated with non-genetic drug tolerance in several cancers. Such plasticity can arise from chromatin remodeling, transcriptomic reprogramming, and/or protein signaling rewiring, and is characterized as a cell state transition in response to molecular or physical perturbations. This, in turn, can confound interpretations of drug responses and resistance development. Using BRAF-mutant melanoma cell lines as the prototype, we report on a joint theoretical and experimental investigation of the cell-state transition dynamics associated with BRAF inhibitor drug tolerance. Thermodynamically motivated surprisal analysis of transcriptome data was used to treat the cell population as an entropy maximizing system under the ...
Resistance due to tumor cell heterogeneity poses a major challenge to the use of targeted therapies ...
Drug resistance in breast cancer cell populations has been shown to arise through phenotypic transit...
Cancer cells within tumors display a high degree of phenotypic variability. This variability is thou...
Phenotypic plasticity is associated with non-genetic drug tolerance in several cancers. Such plastic...
Phenotypic plasticity is associated with non-genetic drug tolerance in several cancers. Such plastic...
Continuous BRAF inhibition of BRAF mutant melanomas triggers a series of cell state changes that lea...
Cancers commonly develop resistance against chemotherapeutics or targeted therapies through either g...
Although novel targeted therapies have significantly improved the overall survival of patients with ...
The determination of individual cell trajectories through a high-dimensional cell-state space is an ...
We resolved a mechanism connecting tumor epigenetic plasticity with non-genetic adaptive resistance ...
A growing body of experimental evidence indicates a strong link between intratumoral heterogeneity a...
International audienceCutaneous melanoma is a highly invasive tumor and, despite the development of ...
The determination of individual cell trajectories through a high-dimensional cell-state space is an ...
The determination of individual cell trajectories through a high-dimensional cell-state space is an ...
Resistance due to tumor cell heterogeneity poses a major challenge to the use of targeted therapies ...
Drug resistance in breast cancer cell populations has been shown to arise through phenotypic transit...
Cancer cells within tumors display a high degree of phenotypic variability. This variability is thou...
Phenotypic plasticity is associated with non-genetic drug tolerance in several cancers. Such plastic...
Phenotypic plasticity is associated with non-genetic drug tolerance in several cancers. Such plastic...
Continuous BRAF inhibition of BRAF mutant melanomas triggers a series of cell state changes that lea...
Cancers commonly develop resistance against chemotherapeutics or targeted therapies through either g...
Although novel targeted therapies have significantly improved the overall survival of patients with ...
The determination of individual cell trajectories through a high-dimensional cell-state space is an ...
We resolved a mechanism connecting tumor epigenetic plasticity with non-genetic adaptive resistance ...
A growing body of experimental evidence indicates a strong link between intratumoral heterogeneity a...
International audienceCutaneous melanoma is a highly invasive tumor and, despite the development of ...
The determination of individual cell trajectories through a high-dimensional cell-state space is an ...
The determination of individual cell trajectories through a high-dimensional cell-state space is an ...
Resistance due to tumor cell heterogeneity poses a major challenge to the use of targeted therapies ...
Drug resistance in breast cancer cell populations has been shown to arise through phenotypic transit...
Cancer cells within tumors display a high degree of phenotypic variability. This variability is thou...