Vaibhav Chikne scite author profile

Extracellular vesicles (EV) secreted by pathogens function in a variety of biological processes. Here, we demonstrate that in the protozoan parasite Trypanosoma brucei, exosome secretion is induced by stress that affects trans-splicing. Following perturbations in biogenesis of spliced leader RNA, which donates its spliced leader (SL) exon to all mRNAs, or after heat-shock, the SL RNA is exported to the cytoplasm and forms distinct granules, which are then secreted by exosomes. The exosomes are formed in multivesicular bodies (MVB) utilizing the endosomal sorting complexes required for transport (ESCRT), through a mechanism similar to microRNA secretion in mammalian cells. Silencing of the ESCRT factor, Vps36, compromised exosome secretion but not the secretion of vesicles derived from nanotubes. The exosomes enter recipient trypanosome cells. Time-lapse microscopy demonstrated that cells secreting exosomes or purified intact exosomes affect social motility (SoMo). This study demonstrates that exosomes are delivered to trypanosome cells and can change their migration. Exosomes are used to transmit stress signals for communication between parasites.

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Pseudouridines on Trypanosoma brucei spliceosomal small nuclear RNAs and their implication for RNA and protein interactions

Rajan

Doniger

Cohen-Chalamish

et al. 2019

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The parasite Trypanosoma brucei, the causative agent of sleeping sickness, cycles between an insect and a mammalian host. Here, we investigated the presence of pseudouridines (Ψs) on the spliceosomal small nuclear RNAs (snRNAs), which may enable growth at the very different temperatures characterizing the two hosts. To this end, we performed the first high-throughput mapping of spliceosomal snRNA Ψs by small RNA Ψ-seq. The analysis revealed 42 Ψs on T. brucei snRNAs, which is the highest number reported so far. We show that a trypanosome protein analogous to human protein WDR79, is essential for guiding Ψ on snRNAs but not on rRNAs. snoRNA species implicated in snRNA pseudouridylation were identified by a genome-wide approach based on ligation of RNAs following in vivo UV cross-linking. snRNA Ψs are guided by single hairpin snoRNAs, also implicated in rRNA modification. Depletion of such guiding snoRNA by RNAi compromised the guided modification on snRNA and reduced parasite growth at elevated temperatures. We further demonstrate that Ψ strengthens U4/U6 RNA–RNA and U2B"/U2A’ proteins-U2 snRNA interaction at elevated temperatures. The existence of single hairpin RNAs that modify both the spliceosome and ribosome RNAs is unique for these parasites, and may be related to their ability to cycle between their two hosts that differ in temperature.

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A pseudouridylation switch in rRNA is implicated in ribosome function during the life cycle of Trypanosoma brucei

Chikne

Doniger

Rajan

et al. 2016

Sci Rep

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The protozoan parasite Trypanosoma brucei, which causes devastating diseases in humans and animals in sub-Saharan Africa, undergoes a complex life cycle between the mammalian host and the blood-feeding tsetse fly vector. However, little is known about how the parasite performs most molecular functions in such different environments. Here, we provide evidence for the intriguing possibility that pseudouridylation of rRNA plays an important role in the capacity of the parasite to transit between the insect midgut and the mammalian bloodstream. Briefly, we mapped pseudouridines (Ψ) on rRNA by Ψ-seq in procyclic form (PCF) and bloodstream form (BSF) trypanosomes. We detected 68 Ψs on rRNA, which are guided by H/ACA small nucleolar RNAs (snoRNA). The small RNome of both life cycle stages was determined by HiSeq and 83 H/ACAs were identified. We observed an elevation of 21 Ψs modifications in BSF as a result of increased levels of the guiding snoRNAs. Overexpression of snoRNAs guiding modification on H69 provided a slight growth advantage to PCF parasites at 30 °C. Interestingly, these modifications are predicted to significantly alter the secondary structure of the large subunit (LSU) rRNA suggesting that hypermodified positions may contribute to the adaption of ribosome function during cycling between the two hosts.

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Two splicing factors carrying serine-arginine motifs, TSR1 and TSR1IP, regulate splicing, mRNA stability, and rRNA processing inTrypanosoma brucei

Gupta¹,

Chikne²,

Eliaz³

et al. 2014

RNA Biology

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In trypanosomes, mRNas are processed by trans-splicing; in this process, a common exon, the spliced leader, is added to all mRNas from a small RNa donor, the spliced leader RNa (sL RNa). however, little is known regarding how this process is regulated. In this study, we investigated the function of two serine-arginine-rich proteins, TsR1 and TsR1IP, implicated in trans-splicing in Trypanosoma brucei. Depletion of these factors by RNai suggested their role in both cisand trans-splicing. Microarray was used to examine the transcriptome of the silenced cells. The level of hundreds of mRNas was changed, suggesting that these proteins have a role in regulating only a subset of T. brucei mRNas. Massspectrometry analyses of complexes associated with these proteins suggest that these factors function in mRNa stability, translation, and rRNa processing. We further demonstrate changes in the stability of mRNa as a result of depletion of the two TsR proteins. In addition, rRNa defects were observed under the depletion of U2aF35, TsR1, and TsR1IP, but not sF1, suggesting involvement of sR proteins in rRNa processing. ©2014 Landes Bioscience. Do not distribute 716RNa Biology Volume 11 Issue 6 among the hundreds of proteins present in the RNA polymerase II transcription complex, and are often loaded co-transcriptionally and accompany the fully spliced mRNA to the cytoplasm. 19 Since splice site consensus sequences are not sufficient to direct assembly of the spliceosome, sequences present in exons or introns such as exonic and intronic splicing enhancers (ESE and ISE), or exonic and intronic splicing silencers (ESS or ISS), are used to bind factors that regulate spliceosome assembly. SR proteins stabilize interactions between the U1 snRNP at the 5′ splice site and U2AF65 at the 3′ splice site. SR proteins are also known to bind to ESE and antagonize the activity of hnRNP proteins recognizing ESS. 20 In metazoa such as C. elegans, several SR proteins are essential, but others are not. 21 In mouse, many SR proteins are essential for life. 22 SR proteins have other functions in addition to their role in splicing, such as nuclear export, non-sense-mediated decay, and translation. SR proteins affect translation directly and indirectly. SF2/ASF was shown to associate with polyribosomes and to enhance translation, probably via release of 4E-BP, a competitive inhibitor of cap-dependent translation. 17 Recent studies support the role of SR proteins not only as splicing regulators, but also implicate these proteins in genome stability, chromatin binding, transcription elongation, mRNA stability, mRNA export, and translation (see review 23 ).The function of SR proteins is regulated by phosphorylation and de-phosphorylation. The RS domain is extensively phosphorylated on serine residues and this modification controls the localization of the protein. Mammalian SR proteins become dephosphorylated during the course of pre-mRNA processing, and promote mRNP transit through the nuclear pore complex. 24 SR proteins associate with the exon-junct...

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Unique Aspects of rRNA Biogenesis in Trypanosomatids

Rajan

Chikne

Decker

et al. 2019

Trends in Parasitology

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Vaibhav Chikne

Exosome secretion affects social motility in Trypanosoma brucei

Pseudouridines on Trypanosoma brucei spliceosomal small nuclear RNAs and their implication for RNA and protein interactions

A pseudouridylation switch in rRNA is implicated in ribosome function during the life cycle of Trypanosoma brucei

Two splicing factors carrying serine-arginine motifs, TSR1 and TSR1IP, regulate splicing, mRNA stability, and rRNA processing inTrypanosoma brucei

Unique Aspects of rRNA Biogenesis in Trypanosomatids

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