Journal article
TAZ-CAMTA1 and YAP-TFE3 alter the TAZ/YAP transcriptome by recruiting the ATAC histone acetyltransferase complex
eLife, Vol.10, e62857
04/29/2021
DOI: 10.7554/eLife.62857
PMID: 33913810
Abstract
Epithelioid hemangioendothelioma (EHE) is a vascular sarcoma that metastasizes early in its clinical course and lacks an effective medical therapy. The TAZ-CAMTA1 and YAP-TFE3 fusion proteins are chimeric transcription factors and initiating oncogenic drivers of EHE. A combined proteomic/genetic screen in human cell lines identified YEATS2 and ZZZ3, components of the Ada2a-containing histone acetyltransferase (ATAC) complex, as key interactors of both fusion proteins despite the dissimilarity of the C terminal fusion partners CAMTA1 and TFE3. Integrative next-generation sequencing approaches in human and murine cell lines showed that the fusion proteins drive a unique transcriptome by simultaneously hyperactivating a TEAD-based transcriptional program and modulating the chromatin environment via interaction with the ATAC complex. Interaction of the ATAC complex with both fusion proteins indicates that it is a key oncogenic driver and unifying enzymatic therapeutic target for this sarcoma. This study presents an approach to mechanistically dissect how chimeric transcription factors drive the formation of human cancers.
The proliferation of human cells is tightly regulated to ensure that enough cells are made to build and repair organs and tissues, while at the same time stopping cells from dividing uncontrollably and damaging the body. To get the right balance, cells rely on physical and chemical cues from their environment that trigger the biochemical signals that regulate two proteins called TAZ and YAP. These proteins control gene activity by regulating the rate at which genes are copied to produce proteins. If this process becomes dysregulated, cells can grow uncontrollably, causing cancer.In cancer cells, it is common to find TAZ and YAP fused to other proteins. In epithelioid hemangioendothelioma, a rare cancer that grows in the blood vessels, cancerous growth can be driven by a version of TAZ fused to the protein CAMTA1, or a version of YAP fused to the protein TFE3. While the role of TAZ and YAP in promoting gene activity is known, it is unclear how CAMTA1 and TFE3 contribute to cell growth becoming dysregulated.Merritt, Garcia et al. studied sarcoma cell lines to show that these two fusion proteins, TAZ-CAMTA1 and YAP-TFE3, change the pattern of gene activity seen in the cells compared to TAZ or YAP alone. An analysis of molecules that interact with the two fusion proteins identified a complex called ATAC as the cause of these changes. This complex adds chemical markers to DNA-packaging proteins, which control which genes are available for activation. The fusion proteins combine the ability of TAZ and YAP to control gene activity and the ability of CAMTA1 and TFE3 to make DNA more accessible, allowing the fusion proteins to drive uncontrolled cancerous growth.Similar TAZ and YAP fusion proteins have been found in other cancers, which can activate genes and potentially alter DNA packaging. Targeting drug development efforts at the proteins that complex with TAZ and YAP fusion proteins may lead to new therapies.
Details
- Title: Subtitle
- TAZ-CAMTA1 and YAP-TFE3 alter the TAZ/YAP transcriptome by recruiting the ATAC histone acetyltransferase complex
- Creators
- Nicole Merritt - University of IowaKeith Garcia - University of IowaDushyandi Rajendran - Lunenfeld-Tanenbaum Research InstituteZhen-Yuan Lin - Lunenfeld-Tanenbaum Research InstituteXiaomeng Zhang - Peter MacCallum Cancer CentreKatrina A Mitchell - The University of MelbourneNicholas Borcherding - Washington University in St. LouisColleen Fullenkamp - University of IowaMichael S Chimenti - University of IowaAnne-Claude Gingras - Lunenfeld-Tanenbaum Research InstituteKieran F Harvey - Monash UniversityMunir R Tanas - University of Iowa
- Resource Type
- Journal article
- Publication Details
- eLife, Vol.10, e62857
- DOI
- 10.7554/eLife.62857
- PMID
- 33913810
- NLM abbreviation
- Elife
- ISSN
- 2050-084X
- eISSN
- 2050-084X
- Grant note
- name: Veterans Health Administration Merit Review Program, award: 1 I01 BX003644-01; DOI: 10.13039/100000002, name: National Institutes of Health, award: R01 CA237031-01A1; DOI: 10.13039/501100000925, name: National Health and Medical Research Council, award: APP1078220; DOI: 10.13039/501100000024, name: Canadian Institutes of Health Research, award: FDN 144301; DOI: 10.13039/100008893, name: University of Iowa; DOI: 10.13039/100000054, name: NCI, award: P30 CA086862; DOI: 10.13039/501100000925, name: National Health and Medical Research Council, award: APP1078220; DOI: 10.13039/501100000024, name: Canadian Institutes of Health Research, award: FDN 144301; DOI: 10.13039/501100004376, name: Terry Fox Research Institute; name: Lunenfeld-Tanenbaum Research Institute; DOI: 10.13039/501100000196, name: Canada Foundation for Innovation; DOI: 10.13039/100013061, name: Ontario Genomics, award: OGI-139; DOI: 10.13039/100000002, name: National Institutes of Health, award: R01 CA237031-01A1S1
- Language
- English
- Date published
- 04/29/2021
- Academic Unit
- Dermatology; Pathology; Iowa Institute of Human Genetics
- Record Identifier
- 9984186580202771
Metrics
8 Record Views