Silencing subtelomeric VSGs by Trypanosoma brucei RAP1 at the insect stage involves chromatin structure changes

Unnati M Pandya,Bibo Li,Ranjodh Sandhu

doi:10.1186/1756-8935-6-s1-p63

Unnati M Pandya, Bibo Li + Show 1 more

Open Access

https://doi.org/10.1186/1756-8935-6-s1-p63

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Journal: Epigenetics & chromatin	Publication Date: Mar 1, 2013
Citations: 1	License type: CC BY 2.0

Affiliation: Cleveland State University

Abstract

Trypanosoma brucei causes human African trypanosomiasis and regularly switches its major surface antigen variant surface glycoprotein (VSG) to evade mammalian host immune responses at the bloodstream form (BF) stage. Monoallelic expression of BF Expression Site (BES)-linked VSGs and silencing of metacyclic VSGs (mVSGs) in BF cells are essential for antigenic variation, whereas silencing of both BES-linked and mVSGs in the procyclic form (PF) cells is important for cell survival in the midgut of its insect vector. We have previously shown that silencing BES-linked VSGs in BF cells depends on TbRAP1. We now show that TbRAP1 silences both BES-linked and mVSGs at both BF and PF stages. The strength of TbRAP1mediated BES-linked VSG silencing is stronger in the PF cells than that in BF cells. In addition, Formaldehyde-Assisted Isolation of Regulatory Elements analysis and MNase digestion demonstrated that depletion of TbRAP1 in PF cells led to a chromatin structure change, which is significantly stronger at the subtelomeric VSG loci than at chromosome internal loci. On the contrary, no significant chromatin structure changes were detected on depletion of TbRAP1 in BF cells. Our observations indicate that TbRAP1 helps to determine the chromatin structure at the insect stage, which likely contributes to its strong silencing effect on VSGs.

Highlights

Trypanosoma brucei causes human African trypanosomiasis and undergoes antigenic variation to evade its mammalian host immune attack
In this study, we found that depletion of TbRAP1 by RNA interference (RNAi) led to derepression of metacyclic VSGs (mVSGs) at both the bloodstream form (BF) and procyclic form (PF) stages
Similar to that observed in BF cells, silencing of bloodstream expression site (BES)-linked variant surface glycoproteins (VSGs) in PF cells depends on TbRAP1

Summary

Introduction

Trypanosoma brucei causes human African trypanosomiasis and undergoes antigenic variation to evade its mammalian host immune attack. Silencing subtelomeric VSGs by Trypanosoma brucei RAP1 at the insect stage involves chromatin structure changes Throughout its life cycle, T. brucei is covered with glycoproteins on its cell surface. When infecting a mammalian host, bloodstream form (BF) T. brucei expresses bloodstream expression site (BES)-linked variant surface glycoproteins (VSGs) in a monoallelic fashion to ensure effectiveness of antigenic variation.

Results

Conclusion