Add to ORKGBackgroundThe majority of cancer cells have a unique metabolic requirement for methionine that is not observed in normal, non-tumorigenic cells. This phenotype is described as "methionine dependence" or "methionine stress sensitivity" in which cancer cells are unable to proliferate when methionine has been replaced with its metabolic precursor, homocysteine, in cell culture growth media. We focus on the metabolic response to methionine stress in the triple negative breast cancer cell line MDA-MB-468 and its methionine insensitive derivative cell line MDA-MB-468res-R8.ResultsUsing a variety of techniques including fluorescence lifetime imaging microscopy (FLIM) and extracellular flux assays, we identified a metabolic down-regulation of oxida...
Understanding cellular metabolism holds immense potential for developing new classes of therapeutics...
Methionine dependence is a metabolic defect characterized by the inability of eukaryotic cells in cu...
Since Otto Warburg reported in 1924 that cancer cells address their increased energy requirement thr...
BackgroundThe majority of cancer cells have a unique metabolic requirement for methionine that is no...
The majority of cancer cells have a unique metabolic addiction to methionine in contrast to normal c...
Methionine and homocysteine are metabolites in the transmethylation pathway leading to synthesis of ...
Methionine (Met) is an essential amino acid and critical precursor to the cellular methyl donor S-ad...
NoMethionine dependence is unique to cancer cells and defined as the inability to grow in a methioni...
Methionine metabolism provides two key cellular reagents: S-adenosylmethionine and glutathione, deri...
Methionine dependence is a feature unique to cancer cells, exhibited as inability to grow in a methi...
Tumorigenesis is accompanied by the reprogramming of cellular metabolism. The shift from oxidative p...
Availability of the amino acid methionine shows remarkable effects on the physiology of individual c...
Methionine dependence is a unique feature of cancer cells characterized by growth and cell cycle arr...
Unlike normal cells, transformed cells are unable to grow when methionine in the growth media is res...
Methionine-dependence phenotype (MDP) refers to the reduced ability of cells to proliferate when met...
Understanding cellular metabolism holds immense potential for developing new classes of therapeutics...
Methionine dependence is a metabolic defect characterized by the inability of eukaryotic cells in cu...
Since Otto Warburg reported in 1924 that cancer cells address their increased energy requirement thr...
BackgroundThe majority of cancer cells have a unique metabolic requirement for methionine that is no...
The majority of cancer cells have a unique metabolic addiction to methionine in contrast to normal c...
Methionine and homocysteine are metabolites in the transmethylation pathway leading to synthesis of ...
Methionine (Met) is an essential amino acid and critical precursor to the cellular methyl donor S-ad...
NoMethionine dependence is unique to cancer cells and defined as the inability to grow in a methioni...
Methionine metabolism provides two key cellular reagents: S-adenosylmethionine and glutathione, deri...
Methionine dependence is a feature unique to cancer cells, exhibited as inability to grow in a methi...
Tumorigenesis is accompanied by the reprogramming of cellular metabolism. The shift from oxidative p...
Availability of the amino acid methionine shows remarkable effects on the physiology of individual c...
Methionine dependence is a unique feature of cancer cells characterized by growth and cell cycle arr...
Unlike normal cells, transformed cells are unable to grow when methionine in the growth media is res...
Methionine-dependence phenotype (MDP) refers to the reduced ability of cells to proliferate when met...
Understanding cellular metabolism holds immense potential for developing new classes of therapeutics...
Methionine dependence is a metabolic defect characterized by the inability of eukaryotic cells in cu...
Since Otto Warburg reported in 1924 that cancer cells address their increased energy requirement thr...