Profiling the bloodstream form and procyclic form<i>Trypanosoma brucei</i>cell cycle using single cell transcriptomics

Briggs, Emma; Marques, Catarina A.; Oldrieve, Guy; Hu, Jihua; Otto, Thomas D.; Matthews, Keith R.

doi:10.1101/2023.01.09.523263

Cited by 4 publications

(3 citation statements)

References 116 publications

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“…Nonetheless, programming of DNA replication to predominantly initiate from a single origin or locus per chromosome would explain the chromosome size-dependent timing of L. major DNA replication we describe here and previously 82 . As we have argued 70,81,141,142 , it is unlikely that whole genome duplication in Leishmania can be accomplished during S-phase using a single origin per chromosome, and so DNA replication may be supported by further, less efficient initiation activities. Such organisation could then explain Leishmania DNA replication timing, feeding into the other genome features we describe.…”

Section: Discussionmentioning

confidence: 94%

R-loops acted on by RNase H1 are a determinant of chromosome length-associated DNA replication timing and genome stability inLeishmania

Damasceno,

Briggs,

Krasilnikova

et al. 2024

Preprint

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Genomes in eukaryotes normally undergo DNA replication in a choreographed temporal order, resulting in early and late replicating chromosome compartments. Leishmania, a human protozoan parasite, displays an unconventional DNA replication program in which the timing of DNA replication completion is chromosome size-dependent: larger chromosomes complete replication later then smaller ones. Here we show that both R-loops and RNase H1, a ribonuclease that resolves RNA-DNA hybrids, accumulate in Leishmania major chromosomes in a pattern that reflects their replication timing. Furthermore, we demonstrate that such differential organisation of R-loops, RNase H1 and DNA replication timing across the parasite chromosomes correlates with size-dependent differences in chromatin accessibility, G quadruplex distribution and sequence content. Using conditional gene excision, we show that loss of RNase H1 leads to transient growth perturbation and permanently abrogates the differences in DNA replication timing across chromosomes, as well as altering levels of aneuploidy and increasing chromosome instability in a size-dependent manner. This work provides a link between R-loop homeostasis and DNA replication timing in a eukaryotic parasite and demonstrates that orchestration of DNA replication dictates levels of genome plasticity in Leishmania.

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Section: Discussionmentioning

confidence: 94%

R-loops acted on by RNase H1 are a determinant of chromosome length-associated DNA replication timing and genome stability inLeishmania

Damasceno,

Briggs,

Krasilnikova

et al. 2024

Preprint

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“…Importantly, our study points to transcriptomics as a powerful approach to characterize these amastigote populations, and a single-cell transcriptomic approach is poised to provide a clear description of amastigote populations. Such an approach has already been successfully used with Trypanosoma brucei blood and procyclic forms 19 .…”

Section: Discussionmentioning

confidence: 99%

Trypanosoma cruzi amastigote transcriptome analysis reveals heterogenous populations with replicating and dormant parasites

Desale

Herrera

Dumonteil

2023

Preprint

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Trypanosoma cruzi is a protozoan parasite causing Chagas disease, with a complex life cycle involving different stages in insect vectors and mammalian hosts. Amastigotes are an intracellular form that replicates in the cytoplasm of host cells, and recent studies suggested that dormant forms may be contributing to parasite persistence, suggesting cellular heterogeneity among amastigotes. We investigated here if a transcriptomic approach could identify some heterogeneity in intracellular amastigotes and identify a dormant population. We used gene expression data derived from bulk RNA-sequencing of T. cruzi infection of human fibrobasts for deconvolution using CDSeq, which allows to simultaneously estimate amastigote cell-type proportions and cell-type-specific expression profiles. Six amastigote subpopulations were identified, confirming intracellular amastigotes heterogeneity, and one population presented characteristics of non-replicative dormant parasites, based on replication markers and TcRAD51 expression. Transcriptomic approaches appear to be powerful to understand T. cruzi cell differentiation and expansion of these studies could provide further insight on the role different cell types in parasite persistence and Chagas disease pathogenesis.

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“…To investigate the presence of stumpy-like forms, we challenged the parasites with high concentrations of cis-aconitate (CA) at low temperature to stimulate the differentiation to PF, which is thought to occur through this intermediate stage [19,20]. During this transformation, the VSG coat is released and replaced by a different coat consisting of invariant GPEET and EP procyclins.…”

Section: Monomorphic Sumo Chain Mutant Parasites Display Stumpy-like ...mentioning

confidence: 99%

SUMO chains depolymerization induces slender to stumpy differentiation inT. bruceibloodstream parasites

Iribarren,

Di Marzio,

Berazategui

et al. 2023

Preprint

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Trypanosoma bruceiare extracellular protozoan parasites transmitted by tsetse flies that cause sleeping sickness in humans and nagana in cattle. Inside the mammalian host, differentiation from a bloodstream replicative slender form into a quiescent stumpy form allows the persistence of the parasite and the spread of the infection. SUMOylation is a reversible and dynamic post-translational modification of proteins that regulates diverse nuclear processes, such as DNA replication, repair and transcription. SUMO can be attached to its target proteins either as a single monomer or forming polymeric chains. We found that transgenic cell lines able to conjugate SUMO just as a monomer are attenuatedin vivo. SUMO chain mutant monomorphic parasites display relapsing and remitting waves of parasitemia, at variance with wild-type parasites that cause unremitting parasitemia and mice death. Furthermore, when mice are infected with an analogous SUMO chain mutant generated in a differentiation-competent pleomorphic background, stumpy cells can be observed at unusually low parasitemia values. Our study reveals that SUMO depolymerization could represent a coordinated signal triggered during a quiescence activation program.

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Profiling the bloodstream form and procyclic formTrypanosoma bruceicell cycle using single cell transcriptomics

Cited by 4 publications

References 116 publications

R-loops acted on by RNase H1 are a determinant of chromosome length-associated DNA replication timing and genome stability inLeishmania

R-loops acted on by RNase H1 are a determinant of chromosome length-associated DNA replication timing and genome stability inLeishmania

Trypanosoma cruzi amastigote transcriptome analysis reveals heterogenous populations with replicating and dormant parasites

SUMO chains depolymerization induces slender to stumpy differentiation inT. bruceibloodstream parasites

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