Add to ORKGReprogramming of lipid metabolism has received increasing recognition as a hallmark of cancer cells because lipid dysregulation and the alteration of related enzyme profiles are closely correlated with oncogenic signals and malignant phenotypes, such as metastasis and therapeutic resistance. In this review, we describe recent findings that support the importance of lipids, as well as the transcription factors involved in cancer lipid metabolism. With recent advances in transcription factor analysis, including computer-modeling techniques, transcription factors are emerging as central players in cancer biology. Considering the limited number and the crucial role of transcription factors associated with lipid rewiring in cancers, transcriptio...
Cancer cells reprogram cellular metabolism to support growth and maintain pathogenicity. Since Otto ...
Lipids have diverse structures, with multifarious regulatory functions in membrane homeostasis and b...
International audienceCancer cells are highly dependent on different metabolic pathways for sustaini...
Reprogramming of lipid metabolism has received increasing recognition as a hallmark of cancer cells ...
Dysregulated lipid metabolism represents an important metabolic alteration in cancer. Fatty acids, c...
Lipid metabolism is involved in the regulation of numerous cellular processes, such as cell growth, ...
Metabolic dysregulation is regarded as an important driver in cancer development and progression. Th...
BACKGROUND: Lipid metabolism reprogramming is a hallmark for tumor which contributes to tumorigenesi...
International audienceMany human diseases, including metabolic, immune and central nervous system di...
Lipids play a fundamental role in maintaining normal function in healthy cells. Their functions incl...
Metabolic reprogramming is critically involved in the development and progression of cancer. In part...
Abstract Reprogramming of lipid metabolism is a newly recognized hallmark of malignancy. Increased l...
SummaryTranscriptional profiling of two isogenic models of transformation identifies a gene signatur...
Abstract Lipid metabolic reprogramming is an emerging hallmark of cancer. In order to sustain uncont...
The transcription factor (TF) mediated regulation of gene expression is a process fundamental to all...
Cancer cells reprogram cellular metabolism to support growth and maintain pathogenicity. Since Otto ...
Lipids have diverse structures, with multifarious regulatory functions in membrane homeostasis and b...
International audienceCancer cells are highly dependent on different metabolic pathways for sustaini...
Reprogramming of lipid metabolism has received increasing recognition as a hallmark of cancer cells ...
Dysregulated lipid metabolism represents an important metabolic alteration in cancer. Fatty acids, c...
Lipid metabolism is involved in the regulation of numerous cellular processes, such as cell growth, ...
Metabolic dysregulation is regarded as an important driver in cancer development and progression. Th...
BACKGROUND: Lipid metabolism reprogramming is a hallmark for tumor which contributes to tumorigenesi...
International audienceMany human diseases, including metabolic, immune and central nervous system di...
Lipids play a fundamental role in maintaining normal function in healthy cells. Their functions incl...
Metabolic reprogramming is critically involved in the development and progression of cancer. In part...
Abstract Reprogramming of lipid metabolism is a newly recognized hallmark of malignancy. Increased l...
SummaryTranscriptional profiling of two isogenic models of transformation identifies a gene signatur...
Abstract Lipid metabolic reprogramming is an emerging hallmark of cancer. In order to sustain uncont...
The transcription factor (TF) mediated regulation of gene expression is a process fundamental to all...
Cancer cells reprogram cellular metabolism to support growth and maintain pathogenicity. Since Otto ...
Lipids have diverse structures, with multifarious regulatory functions in membrane homeostasis and b...
International audienceCancer cells are highly dependent on different metabolic pathways for sustaini...