TbTRF suppresses the TERRA level and regulates the cell cycle-dependent TERRA foci number with a TERRA binding activity in its C-terminal Myb domain.

Telomere repeat-containing RNA (TERRA) has been identified in multiple organisms including Trypanosoma brucei, a protozoan parasite that causes human African trypanosomiasis. T. brucei regularly switches its major surface antigen, VSG, to evade the host immune response. VSG is expressed exclusively from subtelomeric expression sites, and we have shown that telomere proteins play important roles in the regulation of VSG silencing and switching. In this study, we identify several unique features of TERRA and telomere biology in T. brucei. First, the number of TERRA foci is cell cycle-regulated and influenced by TbTRF, the duplex telomere DNA binding factor in T. brucei. Second, TERRA is transcribed by RNA polymerase I mainly from a single telomere downstream of the active VSG. Third, TbTRF binds TERRA through its C-terminal Myb domain, which also has the duplex DNA binding activity, in a sequence-specific manner and suppresses the TERRA level without affecting its half-life. Finally, levels of the telomeric R-loop and telomere DNA damage were increased upon TbTRF depletion. Overexpression of an ectopic allele of RNase H1 that resolves the R-loop structure in TbTRF RNAi cells can partially suppress these phenotypes, revealing an underlying mechanism of how TbTRF helps maintain telomere integrity.

The RRM-mediated RNA binding activity in T. brucei RAP1 is essential for VSG monoallelic expression.

Trypanosoma brucei is a protozoan parasite that causes human African trypanosomiasis. Its major surface antigen VSG is expressed from subtelomeric loci in a strictly monoallelic manner. We previously showed that the telomere protein TbRAP1 binds dsDNA through its 737RKRRR741 patch to silence VSGs globally. How TbRAP1 permits expression of the single active VSG is unknown. Through NMR structural analysis, we unexpectedly identify an RNA Recognition Motif (RRM) in TbRAP1, which is unprecedented for RAP1 homologs. Assisted by the 737RKRRR741 patch, TbRAP1 RRM recognizes consensus sequences of VSG 3'UTRs in vitro and binds the active VSG RNA in vivo. Mutating conserved RRM residues abolishes the RNA binding activity, significantly decreases the active VSG RNA level, and derepresses silent VSGs. The competition between TbRAP1's RNA and dsDNA binding activities suggests a VSG monoallelic expression mechanism in which the active VSG's abundant RNA antagonizes TbRAP1's silencing effect, thereby sustaining its full-level expression.

TbRAP1 has an unusual duplex DNA binding activity required for its telomere localization and VSG silencing.

Localization of Repressor Activator Protein 1 (RAP1) to the telomere is essential for its telomeric functions. RAP1 homologs either directly bind the duplex telomere DNA or interact with telomere-binding proteins. We find that Trypanosoma brucei RAP1 relies on a unique double-stranded DNA (dsDNA) binding activity to achieve this goal. T. brucei causes human sleeping sickness and regularly switches its major surface antigen, variant surface glycoprotein (VSG), to evade the host immune response. VSGs are monoallelically expressed from subtelomeres, and TbRAP1 is essential for VSG regulation. We identify dsDNA and single-stranded DNA binding activities in TbRAP1, which require positively charged 737RKRRR741 residues that overlap with TbRAP1's nuclear localization signal in the MybLike domain. Both DNA binding activities are electrostatics-based and sequence nonspecific. The dsDNA binding activity can be substantially diminished by phosphorylation of two 737RKRRR741-adjacent S residues and is essential for TbRAP1's telomere localization, VSG silencing, telomere integrity, and cell proliferation.

Cytosine DNA methylation at promoter of non LTR retrotransposon and heat shock protein gene (HSP70) of Entamoeba histolytica and lack of correlation with transcription status.

Non LTR retrotransposons (EhLINEs and EhSINEs) occupy 11% of the Entamoeba histolytica genome. Since promoter DNA methylation at cytosines has been correlated with transcriptional silencing of transposable elements in model organisms we checked whether this was the case in EhLINE1. We located promoter activity in a 841bp fragment at 5'-end of this element by luciferase reporter assay. From RNAseq and RT-PCR analyses we selected a transcriptionally active and silent copy to study cytosine DNA methylation of the promoter region by bisulfite sequencing. None of the cytosines were methylated in either copy. Further, we looked at methylation status of a few selected cytosines in all 5'-intact EhLINE1 copies by single nucleotide incorporation opposite cytosine in bisulfite-treated DNA, where dGTP would be incorporated if the cytosine was methylated. Again we did not find evidence of cytosine methylation, indicating that expression status of this element was not correlated with promoter DNA methylation. To test for any role of cytosine methylation in transcriptional regulation of the E. histolytica Hsp70 gene in which the promoter is fully methylated under normal growth conditions, we checked methylation status and found that the promoter remained fully methylated during heat-shock as well, although transcription was greatly enhanced by heat-shock, showing that cytosine methylation is not a repressive mark for EhHsp70. Our data present direct evidence that promoter methylation, a common mode of transposon silencing, is unlikely to be involved in transcriptional regulation of EhLINE1, and reinforce the conclusion that promoter DNA methylation may not be a major contributor to transcriptional regulation in E. histolytica.

Functionally conserved RNA-binding and protein-protein interaction properties of LINE-ORF1p in an ancient clade of non-LTR retrotransposons of Entamoeba histolytica.

Retrotransposons are mobile genetic elements found in most organisms. Their origin and evolution is not very well understood. Retrotransposons that lack long terminal repeats (non-LTR) have been classified based on their reverse transcriptase (RT) and endonuclease sequences into groups, of which R2 is the most ancient. Its members contain a single open reading frame (ORF) while there are two ORFs in the other groups, of which ORF2 contains the RT and endonuclease sequences. It is thought that ORF1 was added later to the single-ORF-containing elements, and codes for a protein with nucleic acid binding activity. We have examined the non-LTR retrotransposons in Entamoeba histolytica, an early-branching parasitic protist, which belongs to the R2 group. However, unlike other members of R2, E. histolytica contains two ORFs. Here we show that EhLINE1-ORF1p is functionally related to the ORF1p found in the non-R2 groups. Its N-terminal region has RNA-binding activity and its C-terminal has a coiled coil domain which participates in protein-protein interaction. It lacks sequence-specificity of RNA-binding and binds to EhLINE1-RNA fragment and ribosomal RNA with comparable affinities. Our study suggests that ORF1p could have evolved independently to maintain functional conservation.