Key Features
Enhance your research with our curated data sets and powerful platform features. Pluto Bio makes it simple to find and use the data you need.
Learn MoreIntermediary metabolism generates substrates for covalent modification of chromatin, enabling potential coupling of metabolic states and epigenetic control. Here, we identify such a network as a major component of oncogenic transformation downstream of the LKB1 tumour suppressor. LKB1 encodes a serine-threonine kinase that integrates nutrient availability, metabolism and growth, however the mechanisms for LKB1-dependent tumour suppression remain elusive. By developing genetically engineered mouse and primary epithelial cell models and employing transcriptional, proteomics, and metabolic analyses, we find that oncogenic cooperation between LKB1 loss and KRAS activation, alterations commonly coinciding in human cancer, is fueled by pronounced mTOR-dependent induction of the serine-glycine-one carbon network coupled to S-adenosylmethionine generation. In concert, DNA methyltransferases (DNMT1, DNMT3A) are upregulated, leading to elevation in genomic 5-methylcytosine levels, with particular enrichment at retrotransposon elements, associated with silencing of retrotransposon transcription. Correspondingly, LKB1 deficiency renders cells highly sensitive to inhibition of serine biosynthesis and DNA methylation in vitro and in vivo. Thus, we define a hypermetabolic state resulting from LKB1 loss and KRAS activation that fuels changes in the epigenetic landscape. This state is critically required for the tumourigenic program of LKB1-mutant cells, suggesting novel points of therapeutic intervention in defined patient subsets. SOURCE: Rahul Karnik (rkarnik@broadinstitute.org) - Meissner Lab Broad Institute
View on GEOView in PlutoEnhance your research with our curated data sets and powerful platform features. Pluto Bio makes it simple to find and use the data you need.
Learn MoreUse Pluto's intuitive interface to analyze and visualize data for this experiment. Pluto's platform is equipped with an API & SDKs, making it easy to integrate into your internal bioinformatics processes.
Read about post-pipeline analysisView quality control data and experiment metadata for this experiment.
Request imports from GEO or TCGA directly within Pluto Bio.
Chat with our Scientific Insights team