López-Farfán Diana, Bart Jean-Mathieu, Rojas-Barros Domingo I, Navarro Miguel
Instituto de Parasitología y Biomedicina "López-Neyra", Consejo Superior de Investigaciones Científicas, CSIC (Spanish National Research Council), Parque Tecnológico de Ciencias de la Salud, Granada, Spain.
Instituto de Parasitología y Biomedicina "López-Neyra", Consejo Superior de Investigaciones Científicas, CSIC (Spanish National Research Council), Parque Tecnológico de Ciencias de la Salud, Granada, Spain; Centro Nacional de Medicina Tropical, Instituto de Salud Carlos III (ISCIII), Madrid, Spain.
PLoS Pathog. 2014 Dec 4;10(12):e1004545. doi: 10.1371/journal.ppat.1004545. eCollection 2014 Dec.
Bloodstream form trypanosomes avoid the host immune response by switching the expression of their surface proteins between Variant Surface Glycoproteins (VSG), only one of which is expressed at any given time. Monoallelic transcription of the telomeric VSG Expression Site (ES) by RNA polymerase I (RNA pol I) localizes to a unique nuclear body named the ESB. Most work has focused on silencing mechanisms of inactive VSG-ESs, but the mechanisms involved in transcriptional activation of a single VSG-ES remain largely unknown. Here, we identify a highly SUMOylated focus (HSF) in the nucleus of the bloodstream form that partially colocalizes with the ESB and the active VSG-ES locus. SUMOylation of chromatin-associated proteins was enriched along the active VSG-ES transcriptional unit, in contrast to silent VSG-ES or rDNA, suggesting that it is a distinct feature of VSG-ES monoallelic expression. In addition, sequences upstream of the active VSG-ES promoter were highly enriched in SUMOylated proteins. We identified TbSIZ1/PIAS1 as the SUMO E3 ligase responsible for SUMOylation in the active VSG-ES chromatin. Reduction of SUMO-conjugated proteins by TbSIZ1 knockdown decreased the recruitment of RNA pol I to the VSG-ES and the VSG-ES-derived transcripts. Furthermore, cells depleted of SUMO conjugated proteins by TbUBC9 and TbSUMO knockdown confirmed the positive function of SUMO for VSG-ES expression. In addition, the largest subunit of RNA pol I TbRPA1 was SUMOylated in a TbSIZ-dependent manner. Our results show a positive mechanism associated with active VSG-ES expression via post-translational modification, and indicate that chromatin SUMOylation plays an important role in the regulation of VSG-ES. Thus, protein SUMOylation is linked to active gene expression in this protozoan parasite that diverged early in evolution.
血流形式的锥虫通过在可变表面糖蛋白(VSG)之间切换其表面蛋白的表达来逃避宿主免疫反应,在任何给定时间仅表达其中一种。端粒VSG表达位点(ES)由RNA聚合酶I(RNA pol I)进行单等位基因转录,定位于一个名为ESB的独特核体。大多数研究都集中在非活性VSG-ES的沉默机制上,但单个VSG-ES转录激活所涉及的机制仍 largely未知。在这里,我们在血流形式的细胞核中鉴定出一个高度SUMO化的焦点(HSF),它与ESB和活性VSG-ES基因座部分共定位。与沉默的VSG-ES或rDNA相比,染色质相关蛋白的SUMO化沿着活性VSG-ES转录单元富集,这表明它是VSG-ES单等位基因表达的一个独特特征。此外,活性VSG-ES启动子上游的序列在SUMO化蛋白中高度富集。我们鉴定出TbSIZ1/PIAS1为负责活性VSG-ES染色质中SUMO化的SUMO E3连接酶。通过敲低TbSIZ1减少SUMO共轭蛋白会降低RNA pol I对VSG-ES和VSG-ES衍生转录本的募集。此外,通过敲低TbUBC9和TbSUMO使SUMO共轭蛋白耗尽的细胞证实了SUMO对VSG-ES表达的积极作用。此外,RNA pol I的最大亚基TbRPA1以TbSIZ依赖的方式被SUMO化。我们表明一种通过翻译后修饰与活性VSG-ES表达相关的积极机制,并表明染色质SUMO化在VSG-ES的调控中起重要作用。因此,蛋白质SUMO化与这种在进化早期分化出来的原生动物寄生虫中的活性基因表达相关联。
