Oligopeptide Signaling through TbGPR89 Drives Trypanosome Quorum Sensing

Rojas, Federico; Silvester, Eleanor; Young, Julie; Milne, Rachel M; Tettey, Mabel Deladem; Houston, Douglas R.; Walkinshaw, Malcolm D.; Pérez-Pi, Irene; Auer, Manfred; Denton, Helen; Smith, Terry; Thompson, Joanne; Matthews, Keith R.

doi:10.1016/j.cell.2018.10.041

Cited by 133 publications

(146 citation statements)

References 58 publications

(69 reference statements)

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“…These have a variant surface glycoprotein surface coat and depend mainly on glycolysis for ATP, using enzymes that are compartmentalised in a microbody called the glycosome (Hannaert, Bringaud, & Michels, ). When bloodstream forms reach high density, either in culture or in a mammal, they have a quorum sensing response (Rojas et al, ) and transform to nondividing stumpy form trypomastigotes. Upon uptake of the stumpy forms by Tsetse, or transfer to culture at 27°C in the presence of cis‐aconitate, stumpy forms develop into growing procyclic trypomastigotes, which rely mainly on mitochondrial pathways of ATP generation (Bringaud, Riviere, & Coustou, ; Mantilla et al, ).…”

Section: Introductionmentioning

confidence: 99%

The zinc finger proteins ZC3H20 and ZC3H21 stabilise mRNAs encoding membrane proteins and mitochondrial proteins in insect‐form Trypanosoma brucei

Liu

Marucha

Clayton

2019

Molecular Microbiology

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ZC3H20 and ZC3H21 are related trypanosome proteins with two C(x)8C(x)5C(x)3H zinc finger motifs. ZC3H20 is present at a low level in replicating mammalian‐infective bloodstream forms, but becomes more abundant when they undergo growth arrest at high density; ZC3H21 appears only in the procyclic form of the parasite, which infects Tsetse flies. Each protein binds to several hundred mRNAs, with overlapping but not identical specificities. Both increase expression of bound mRNAs, probably through recruitment of the MKT1‐PBP1 complex. At least 28 of the bound mRNAs decrease after depletion of ZC3H20, or of ZC3H20 and ZC3H21 together; their products include procyclic‐specific proteins of the plasma membrane and energy metabolism. Simultaneous depletion of ZC3H20 and ZC3H21 causes procyclic forms to shrink and stop growing; in addition to decreases in target mRNAs, there are other changes suggestive of loss of developmental regulation. The bloodstream‐form‐specific protein RBP10 controls ZC3H20 and ZC3H21 expression. Interestingly, some ZC3H20/21 target mRNAs also bind to and are repressed by RBP10, allowing for dynamic regulation as RBP10 decreases and ZC3H20 and ZC3H21 increase during differentiation.

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Section: Introductionmentioning

confidence: 99%

The zinc finger proteins ZC3H20 and ZC3H21 stabilise mRNAs encoding membrane proteins and mitochondrial proteins in insect‐form Trypanosoma brucei

Liu

Marucha

Clayton

2019

Molecular Microbiology

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“…These have a variant surface glycoprotein surface coat and depend mainly on glycolysis for ATP, using enzymes that are compartmentalised in a microbody called the glycosome (Hannaert et al, 2003). When bloodstream forms reach high density, either in culture or in a mammal, they have a quorum sensing response (Rojas et al, 2018) and transform to non-dividing stumpy-form trypomastigotes. Upon uptake of the stumpy forms by Tsetse, or transfer to culture at 27°C in the presence of cis-aconitate, stumpy forms develop into growing procyclic trypomastigotes, which rely mainly on mitochondrial pathways of ATP generation (Mantilla et al, 2017, Bringaud et al, 2006.…”

Section: Introductionmentioning

confidence: 99%

The zinc finger proteins ZC3H20 and ZC3H21 stabilise mRNAs encoding membrane proteins and mitochondrial proteins in insect-formTrypanosoma brucei

Liu

Marucha

Clayton

2019

Preprint

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KeywordsmRNA Trypanosoma translation binding RNASeq Summary ZC3H20 and ZC3H21 are related trypanosome proteins with two C(x) 8 C(x) 5 C(x) 3 H zinc finger motifs. ZC3H20 is unstable in mammalian-infective bloodstream forms, but becomes more abundant as they transform to growth-arrested stumpy form, while ZC3H21 appears only in the procyclic form of the parasite, which infects Tsetse flies. Each protein binds to several hundred mRNAs, with overlapping but not identical specificities. Both increase expression of bound mRNAs, probably through recruitment of the MKT1-PBP1 complex. At least seventy of the bound mRNAs decrease after RNAi targeting ZC3H20 or ZC3H20 and ZC3H21; their products include procyclic-specific proteins of the plasma membrane and energy metabolism. Simultaneous depletion of ZC3H20 and ZC3H21 causes procyclic forms to shrink and stop growing; in addition to decreases in target mRNAs, there are other changes suggestive of loss of developmental regulation. The bloodstream-form specific protein RBP10 controls ZC3H20 and ZC3H21 expression. Interestingly, some ZC3H20/21 target mRNAs also bind to and are repressed by RBP10, allowing for dynamic regulation as RBP10 decreases and ZC3H20 and ZC3H21 increase during differentiation.the fates of several hundred mRNAs, and have overlapping but different roles in the trypanosome life cycle and in gene regulation.

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“…The secretome, (excreted/secreted factors), of trypanosomes is a complex mixture of proteins, carbohydrates and lipids excreted from the surface of the parasite or secreted via exocytotic vesicles by a parasite‐specific organelle called the flagellar pocket . Some of these components are implicated in T brucei evasion of host innate response and others in the virulence process . Because of the fundamental role of DCs during trypanosomiasis but limited human data, we investigated the effects of T gambiense and its secretome on human monocytes‐derived DCs.…”

Section: Introductionmentioning

confidence: 99%

“…[12][13][14] Some of these components are implicated in T brucei evasion of host innate response 15,16 and others in the virulence process. [17][18][19][20][21] Because of the fundamental role of DCs during trypanosomiasis but limited human data, we investigated the effects of T gambiense and its secretome on human monocytes-derived DCs.…”

mentioning

confidence: 99%

Trypanosoma brucei gambiense excreted/secreted factors impair lipopolysaccharide‐induced maturation and activation of human monocyte‐derived dendritic cells

Dauchy

Contin‐Bordes

Nzoumbou‐Boko

et al. 2019

Parasite Immunology

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Trypanosoma brucei gambiense, an extracellular eukaryotic flagellate parasite, is the main etiological agent of human African trypanosomiasis (HAT) or sleeping sickness. Dendritic cells (DCs) play a pivotal role at the interface between innate and adaptive immune response and are implicated during HAT. In this study, we investigated the effects of T gambiense and its excreted/secreted factors (ESF) on the phenotype of human monocyte‐derived DCs (Mo‐DCs). Mo‐DCs were cultured with trypanosomes, lipopolysaccharide (LPS), ESF derived from T gambiense bloodstream strain Biyamina (MHOM/SD/82), or both ESF and LPS. Importantly, ESF reduced the expression of the maturation markers HLA‐DR and CD83, as well as the secretion of IL‐12, TNF‐alpha and IL‐10, in LPS‐stimulated Mo‐DCs. During mixed‐leucocyte reactions, LPS‐ plus ESF‐exposed DCs induced a non‐significant decrease in the IFN‐gamma/IL‐10 ratio of CD4 + T‐cell cytokines. Based on the results presented here, we raise the hypothesis that T gambiense has developed an immune escape strategy through the secretion of paracrine mediators in order to limit maturation and activation of human DCs. The identification of the factor(s) in the T gambiense ESF and of the DCs signalling pathway(s) involved may be important in the development of new therapeutic targets.

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Oligopeptide Signaling through TbGPR89 Drives Trypanosome Quorum Sensing

Cited by 133 publications

References 58 publications

The zinc finger proteins ZC3H20 and ZC3H21 stabilise mRNAs encoding membrane proteins and mitochondrial proteins in insect‐form Trypanosoma brucei

The zinc finger proteins ZC3H20 and ZC3H21 stabilise mRNAs encoding membrane proteins and mitochondrial proteins in insect‐form Trypanosoma brucei

The zinc finger proteins ZC3H20 and ZC3H21 stabilise mRNAs encoding membrane proteins and mitochondrial proteins in insect-formTrypanosoma brucei

Trypanosoma brucei gambiense excreted/secreted factors impair lipopolysaccharide‐induced maturation and activation of human monocyte‐derived dendritic cells

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