Laboratorio de Interacciones Moleculares, Facultad de Ciencias, 11400 Montevideo, Uruguay.
Exp Parasitol. 2013 Aug;134(4):511-8. doi: 10.1016/j.exppara.2013.04.004. Epub 2013 Apr 28.
In Trypanosoma cruzi gene expression regulation mainly relays on post-transcriptional events. Nevertheless, little is known about the signals which control mRNA abundance and functionality. We have previously found that CA repeated tracts (polyCA) are abundant in the vicinity of open reading frames and constitute specific targets for single stranded binding proteins from T. cruzi epimastigote. Given the reported examples of the involvement of polyCA motifs in gene expression regulation, we decided to further study their role in T. cruzi. Using an in silico genome-wide analysis, we identify the genes that contain polyCA within their predicted UTRs. We found that about 10% of T. cruzi genes carry polyCA therein. Strikingly, they are frequently concurrent with GT repeated tracts (polyGT), favoring the formation of a secondary structure exhibiting the complementary polydinucleotides in a double stranded helix. This feature is found in the species-specific family of genes coding for mucine associated proteins (MASPs) and other genes. For those polyCA-containing UTRs that lack polyGT, the polyCA is mainly predicted to adopt a single stranded structure. We further analyzed the functional role of such element using a reporter approach in T. cruzi. We found out that the insertion of polyCA at the 3' UTR of a reporter gene in the pTEX vector modulates its expression along the parasite's life cycle. While no significant change of the mRNA steady state of the reporter gene could be detected at the trypomastigote stage, significant increase in the epimastigote and reduction in the amastigote stage were observed. Altogether, these results suggest the involvement of polyCA as a signal in gene expression regulation in T. cruzi.
在克氏锥虫基因表达调控中,主要依赖于转录后事件。然而,对于控制 mRNA 丰度和功能的信号知之甚少。我们之前发现,CA 重复序列(多 CA)在开放阅读框附近丰富,并构成克氏锥虫无鞭毛体中单链结合蛋白的特定靶标。鉴于多 CA 基序参与基因表达调控的报道实例,我们决定进一步研究它们在克氏锥虫中的作用。通过计算机基因组范围内的分析,我们确定了在预测的 UTR 中含有多 CA 的基因。我们发现约 10%的克氏锥虫基因带有多 CA。引人注目的是,它们经常与 GT 重复序列(多 GT)同时出现,有利于形成一种二级结构,在双链螺旋中展示互补的多核苷酸。这一特征存在于编码粘蛋白相关蛋白(MASPs)和其他基因的物种特异性基因家族中。对于那些缺乏多 GT 的含有多 CA 的 UTR,多 CA 主要预测为采用单链结构。我们进一步使用 T. cruzi 中的报告基因方法分析了这种元件的功能作用。我们发现,在 pTEX 载体中的报告基因 3'UTR 中插入多 CA 可调节其在寄生虫生命周期中的表达。虽然在锥虫阶段无法检测到报告基因 mRNA 稳态的显著变化,但在无鞭毛体和前体阶段观察到显著增加和减少。总的来说,这些结果表明多 CA 作为克氏锥虫基因表达调控中的信号参与其中。
