Regulation of Normal and Neoplastic Proliferation and Metabolism by the Extended Myc Network.
Edward V ProchownikPublished in: Cells (2022)
The Myc Network, comprising a small assemblage of bHLH-ZIP transcription factors, regulates many hundreds to thousands of genes involved in proliferation, energy metabolism, translation and other activities. A structurally and functionally related set of factors known as the Mlx Network also supervises some of these same functions via the regulation of a more limited but overlapping transcriptional repertoire. Target gene co-regulation by these two Networks is the result of their sharing of three members that suppress target gene expression as well as by the ability of both Network's members to cross-bind one another's consensus DNA sites. The two Networks also differ in that the Mlx Network's control over transcription is positively regulated by several glycolytic pathway intermediates and other metabolites. These distinctive properties, functions and tissue expression patterns potentially allow for sensitive control of gene regulation in ways that are differentially responsive to environmental and metabolic cues while allowing for them to be both rapid and of limited duration. This review explores how such control might occur. It further discusses how the actual functional dependencies of the Myc and Mlx Networks rely upon cellular context and how they may differ between normal and neoplastic cells. Finally, consideration is given to how future studies may permit a more refined understanding of the functional interrelationships between the two Networks.
Keyphrases
- transcription factor
- gene expression
- signaling pathway
- dna methylation
- induced apoptosis
- social media
- health information
- genome wide
- cell proliferation
- risk assessment
- endoplasmic reticulum stress
- drug delivery
- current status
- cancer therapy
- clinical practice
- single molecule
- circulating tumor cells
- genome wide analysis
- pi k akt
- nucleic acid