Holocarboxylase synthetase acts as a biotin-independent transcriptional repressor interacting with HDAC1, HDAC2 and HDAC7
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- 作者:Isis Trujillo-Gonzaleza ; b ; Rafael Cervantes-Roldana ; b ; Alfonso Gonzalez-Noriegac ; Colette Michalakc ; Sandra Reyes-Carmonaa ; b ; Tonatiuh Barrios-Garciaa ; b ; Ivan Meneses-Moralesa ; b ; Alfonso Leon-Del-Rioa ; b ; leon@biomedicas.unam.mx" class="auth_mail
- 关键词:Holocarboxylase synthetase ; Transcriptional repression ; Histone deacetylases ; H3K9met3 ; Biotin-ligase ; Moonlighting enzyme
- 刊名:Molecular Genetics and Metabolism
- 出版年:March, 2014
- 年:2014
- 卷:111
- 期:3
- 页码:321-330
- 全文大小:1032 K
文摘
In human cells, HCS catalyzes the biotinylation of biotin-dependent carboxylases and mediates the transcriptional control of genes involved in biotin metabolism through the activation of a cGMP-dependent signal transduction pathway. HCS also targets to the cell nucleus in association with lamin-B suggesting additional gene regulatory functions. Studies from our laboratory in Drosophila melanogaster showed that nuclear HCS is associated with heterochromatin bands enriched with the transcriptionally repressive mark histone 3 trimethylated at lysine 9. Further, HCS was shown to be recruited to the core promoter of the transcriptionally inactive hsp70 gene suggesting that it may participate in the repression of gene expression, although the mechanism involved remained elusive. In this work, we expressed HCS as a fusion protein with the DNA-binding domain of GAL4 to evaluate its effect on the transcription of a luciferase reporter gene. We show that HCS possesses transcriptional repressor activity in HepG2 cells. The transcriptional function of HCS was shown by in vitro pull down and in vivo co-immunoprecipitation assays to depend on its interaction with the histone deacetylases HDAC1, HDAC2 and HDAC7. We show further that HCS interaction with HDACs and its function in transcriptional repression is not affected by mutations impairing its biotin-ligase activity. We propose that nuclear HCS mediates events of transcriptional repression through a biotin-independent mechanism that involves its interaction with chromatin-modifying protein complexes that include histone deacetylases.