Proteomics

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Control of variant surface glycoprotein expression by CFB2 in African trypanosomes and quantitative proteomic connections to translation and cytokinesis initiation


ABSTRACT: Variant Surface Glycoproteins (VSG) coat parasitic African trypanosomes and underpin antigenic variation and immune evasion. This VSG is a super-abundant virulence factor that is subject to post-transcriptional gene expression controls mediated via the VSG 3’-untranslated region (3’-UTR). To identify positive VSG regulators in bloodstream form cells, we used prior genome-scale screening data to prioritise mRNA binding protein (mRBPs) knockdowns that phenocopy VSG mRNA knockdown, displaying both loss-of-fitness and pre-cytokinesis accumulation. The top three candidate VSG regulators were CFB2 (cyclin F-box protein 2, Tb927.1.4650), MKT1 (Tb927.6.4770) and PBP1 (polyadenylate binding-protein binding-protein, Tb927.8.4540). Notably, CFB2 was recently found to regulate VSG transcript stability, and all three proteins were found to associate with each other. We used data-independent acquisition for accurate label-free quantification and deep proteome coverage to quantify expression profiles following depletion of each mRBP. Only CFB2 knockdown significantly reduced VSG expression and the expression of a reporter under the control of a VSG 3’-untranslated region (3’-UTR). CFB2 knockdown also triggered depletion of cytoplasmic ribosomal proteins, consistent with translation arrest observed when VSG synthesis is blocked. In contrast, PBP1 knockdown triggered depletion of CFB2, MKT1, and other components of the PBP1-complex. Finally, all three knockdowns triggered depletion of cytokinesis initiation factors, consistent with the cytokinesis defect that was confirmed here for all three knockdowns. Thus, genome-scale knockdown datasets facilitate the triage and prioritisation of candidate regulators. Quantitative proteomic analysis confirms 3’-UTR dependent positive control of VSG expression by CFB2 and interactions with additional mRBPs. Our results also reveal connections between VSG expression control by CFB2, ribosomal protein expression, and cytokinesis.

INSTRUMENT(S): Q Exactive HF

ORGANISM(S): Trypanosoma Brucei

SUBMITTER: Michele Tinti  

LAB HEAD: David Horn

PROVIDER: PXD031351 | Pride | 2022-02-01

REPOSITORIES: Pride

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