Flagellar cAMP signaling controls trypanosome progression through host tissues

Shaw, Sebastian; DeMarco, Stephanie F.; Rehmann, Ruth; Wenzler, Tanja; Florini, Francesca; Roditi, Isabel; Hill, Kent L.

doi:10.1038/s41467-019-08696-y

Cited by 60 publications

(92 citation statements)

References 69 publications

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“…The repair template, in the form of a purified PCR product, including homology arms of 30 bp on each side, was amplified from pPOTv7 [7]. As a positive control we transfected a derivative of T. brucei Lister 427 procyclic forms that already expresses Cas9 and T7RNAP constitutively (Lister 427/Cas9) [5]. This gave rise to cells with a fluorescent flagellum as expected (tryptag.org) ( Figure 2A).…”

Section: Resultsmentioning

confidence: 95%

“…We modified this plasmid by replacing the puromycin acetyltransferase gene with that of T7RNAP, giving rise to pTB011_Cas9_T7RNAP_blast ( Figure 1A). This plasmid allows generation of CRISPR/Cas9competent cell lines, constitutively expressing T7RNAP and Cas9 from the tubulin locus, in a single round of transfection [5]. Further modification of this plasmid, and optimisation of the transfection protocol for transient expression of the proteins and guide RNAs, are described below.…”

Section: Introductionmentioning

confidence: 99%

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A transient CRISPR/Cas9 expression system for genome editing in Trypanosoma brucei

Shaw

Knüsel

Hoenner

et al. 2020

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Objective Generation of knockouts and in situ tagging of genes in Trypanosoma brucei has been greatly facilitated by using CRISPR/Cas9 as a genome editing tool. To date, this has entailed using a limited number of cell lines that are stably transformed to express Cas9 and T7 RNA polymerase (T7RNAP). It would be desirable, however, to be able to use CRISPR/Cas9 for any trypanosome cell line. Results We describe a sequential transfection expression system that enables transient expression of the two proteins, followed by delivery of PCR products for gRNAs and repair templates. This procedure can be used for genome editing without the need for stable integration of the Cas9 and T7RNAP genes.

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Section: Resultsmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

A transient CRISPR/Cas9 expression system for genome editing in Trypanosoma brucei

Shaw

Knüsel

Hoenner

et al. 2020

Preprint

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“…Since etazolate apparently have noimpact of total cellular cAMP pool [5]), it is anticipated that anti-parasitic activity of etazolate is due to microdomain-specific modulation of cAMP response or by binding to some unidentified effector(s). Etazolate, primarily a PDE4 inhibitor [24,28], is a well-established drug of choice with no major side effects reported [28] in preclinical studies as well as pharmacokinetic and safety profiles in Phase I and Phase IIaclinical studies. Etazolate produced antidepressant like effects in animal models of depression and at the same time it could be used in the treatment of Alzheimer’s disease.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of modulators of cAMP-response in terms of their impact on cell cycle and mitochondrial activity ofLeishmania donovani

Saha

Bhattacharjee

Vij

et al. 2020

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2 With the identification of novel cAMP binding effecter molecules in Trypanosoma, 3 role of cAMP in kinetopalstida parasites gained an intriguing break through. Despite 4 earlier demonstrations of role of cAMP in survival of Leishmania during macrophage 5 infection, there is essential need to specifically clarify involvement of cAMP in 6 various cellular processes in the parasite. In this context, we sought to gain a 7 comprehensive understanding of the effect of cAMPanalogs and cAMP-8 phosphodiesterase (PDE) inhibitors on proliferation of log phase parasites. 9 Administration of both hydrolysable (8-pCPT-cAMP) and non-hydrolysable analogs 10 (Sp-8-pCPT-cAMPS) of cAMP resulted in significant decrease of Leishmania 11 proliferation. Amongst the various PDE inhibitors, etazolate was found to be potently 12 anti-proliferative. BrdU cell proliferation and K/N/F-enumeration microscopic study 13 revealed that both cAMP analogues and selective PDE inhibitors resulted in 14 significant cell cycle arrest at G 1 phase with reduced S-phase population. 15 Furthermore, careful examination of the flagellar motility patterns revealed 16 significantly reduced coordinated forward flagellar movement of the promastigotes 17 with a concomitant decrease in cellular ATP levels. Alongside, 8-pCPT-cAMP and 18

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“…One, previously identified as “cAMP response protein 3” (CARP3), is a candidate cAMP effector [59] and over half of the proteins are adenylate cyclases. A role for the flagellum tip in cAMP signaling has been previously demonstrated [10, 11] and flagellar cAMP signaling is required for the T. brucei transmission cycle in the tsetse fly [12]. Another protein group well-represented in the AC1s proximity proteome is calpain-like proteins.…”

Section: Discussionmentioning

confidence: 99%

APEX2 proximity proteomics resolves flagellum subdomains and identifies flagellum tip-specific proteins inTrypanosoma brucei

Vélez-Ramírez

Shimogawa²,

Ray³

et al. 2020

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25Trypanosoma brucei is the protozoan parasite responsible for sleeping sickness, a lethal vector-borne 26 disease. T. brucei has a single flagellum that plays critical roles in parasite biology, transmission and 27pathogenesis. An emerging concept in flagellum biology is that the organelle is organized into 28 subdomains, each having specialized composition and function. Overall flagellum proteome has been 29 well-studied, but a critical gap in knowledge is the protein composition of individual flagellum 30 subdomains. We have therefore used APEX-based proximity proteomics to examine protein composition 31 of T. brucei flagellum subdomains. To assess effectiveness of APEX-based proximity labeling, we fused 32 APEX2 to the DRC1 subunit of the nexin-dynein regulatory complex, an axonemal complex distributed 33 along the flagellum. We found that DRC1-APEX2 directs flagellum-specific biotinylation and purification 34 of biotinylated proteins yields a DRC1 "proximity proteome" showing good overlap with proteomes 35 obtained from purified axonemes. We next employed APEX2 fused to a flagellar membrane protein that 36 is restricted to the flagellum tip, adenylate cyclase 1 (AC1), or a flagellar membrane protein that is 37 excluded from the flagellum tip, FS179. Principal component analysis demonstrated the pools of 38 biotinylated proteins in AC1-APEX2 and FS179-APEX2 samples are distinguished from each other. 39Comparing proteins in these two pools allowed us to identify an AC1 proximity proteome that is 40 enriched for flagellum tip proteins and includes several proteins involved in signal transduction. Our 41 combined results demonstrate that APEX2-based proximity proteomics is effective in T. brucei and can 42 be used to resolve proteome composition of flagellum subdomains that cannot themselves be readily 43 purified. 44 IMPORTANCE 45Sleeping sickness is a neglected tropical disease, caused by the protozoan parasite Trypanosoma brucei. 46The disease disrupts the sleep-wake cycle, leading to coma and death if left untreated. T. brucei motility, transmission, and virulence depend on its flagellum (aka cilium), which consists of several different 48 specialized subdomains. Given the essential and multifunctional role of the T. brucei flagellum, there is 49 need of approaches that enable proteomic analysis of individual subdomains. Our work establishes that 50 APEX2 proximity labeling can, indeed, be implemented in the biochemical environment of T. brucei, and 51 has allowed identification of proximity proteomes for different subdomains. This capacity opens the 52 possibility to study the composition and function of other compartments. We further expect that this 53 approach may be extended to other eukaryotic pathogens, and will enhance the utility of T. brucei as a 54 model organism to study ciliopathies, heritable human diseases in which cilia function is impaired. 55 INTRODUCTION 56Trypanosoma brucei is a flagellated parasite that is transmitted between mammalian hosts by a 57 hematophagous vector, the tsetse fly, ...

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Flagellar cAMP signaling controls trypanosome progression through host tissues

Cited by 60 publications

References 69 publications

A transient CRISPR/Cas9 expression system for genome editing in Trypanosoma brucei

A transient CRISPR/Cas9 expression system for genome editing in Trypanosoma brucei

Evaluation of modulators of cAMP-response in terms of their impact on cell cycle and mitochondrial activity ofLeishmania donovani

APEX2 proximity proteomics resolves flagellum subdomains and identifies flagellum tip-specific proteins inTrypanosoma brucei

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