TY - JOUR T1 - Regulatory Modules of Human Thermogenic Adipocytes: Functional Genomics of Meta-Analyses Derived Marker-Genes JF - bioRxiv DO - 10.1101/2021.01.25.428057 SP - 2021.01.25.428057 AU - Beáta B. Tóth AU - Zoltán Barta AU - László Fésüs Y1 - 2021/01/01 UR - http://biorxiv.org/content/early/2021/02/01/2021.01.25.428057.abstract N2 - Recently, ProFAT and BATLAS scores have been offered to determine thermogenic status of adipocytes using expression pattern of brown and white marker-genes. In this work, we investigated the functional context of these genes. Although the two meta-analyses based marker-gene lists have little overlap, their enriched pathways show strong coincides suggesting they may better characterize adipocytes. We demonstrate that functional genomics of the annotated genes in common pathways enables an extended analysis of thermogenesis regulation, generates testable hypotheses supported by experimental results in human adipocytes with different browning potential and may lead to more global conclusions than single-state studies. Our results imply that different biological processes shape brown and white adipocytes with presumed transitional states. We propose that the thermogenic adipocyte phenotype require both repression of whitening and induction of browning. These simultaneous actions and hitherto unnoticed regulatory modules, such as the exemplified HIF1A that may directly act at UCP1 promoter, can set new direction in obesity research.HighlightsIntegrated pathways better characterize brown adipocytes than marker-genesDifferent processes shape the brown and white adipocyte phenotypesThermogenic phenotype may require simultaneous repression of whitening and induction of browningProtein network analyses reveals unnoticed regulatory modules of adipocyte phenotypeHIF1A may regulate thermogenesis by direct control of UCP1 gene-expressionCompeting Interest StatementThe authors have declared no competing interest. ER -