BSP Spring Meeting 2024
Schedule : Back to Nicolai Siegel

High-resolution scRNA-seq reveals genomic determinants of antigen expression hierarchy in African Trypanosomes

Wed3 Apr02:20pm(25 mins)
Where:
Lecture theatre 3
Keynote Speaker:
Nicolai Siegel

Authors

N Siegel11 Ludwig-Maximilians University, Germany

Discussion

Antigenic variation is an immune evasion strategy used by many different pathogens. It involves the periodic, non-random switch in the expression of different antigens throughout an infection. How the observed hierarchy in antigen expression is achieved has remained a mystery. A key challenge in uncovering this process has been the inability to track transcriptome changes and potential genomic rearrangements in individual cells during a switch event. Here, we report the establishment of a highly sensitive single-cell RNA-seq (scRNA-seq) approach for the model protozoan parasite Trypanosoma brucei. This approach has revealed genomic rearrangements that occur in individual cells during a switch event. Our data show that following a double-strand break (DSB) in the transcribed antigen-coding gene – an important trigger for antigen switching – the type of repair mechanism and the resultant antigen expression depend on the availability of a homologous repair template in the genome. When such a template was available, repair proceeded through segmental gene conversion, creating new, mosaic antigen-coding genes. Conversely, in the absence of a suitable template, a telomere-adjacent antigen-coding gene from a different part of the genome was activated by break-induced replication. Our results reveal the critical role of available repair sequence in the antigen selection mechanism. Additionally, our study demonstrates the power of highly sensitive scRNA-seq methods in detecting genomic rearrangements that drive transcriptional changes at the single-cell level.

Hosted By

British Society for Parasitology (BSP)

We are science based Charitable Incorporated Organisation

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