Specialised RNA decay fine-tunes monogenic antigen expression in African trypanosomes

Antigenic variation is a sophisticated immune evasion strategy employed by many pathogens. Trypanosoma brucei expresses a single Variant-Surface-Glycoprotein (VSG) from a large genetic repertoire, which they periodically switch throughout an infection. Co-transcribed with the active- VSG within a specialised nuclear body are expression-site-associated-genes ( ESAGs ), involved in important host-parasite interactions, including protecting the parasite from human serum lytic effects, modulating the host’s innate immune response and uptake of essential nutrients. Despite expression within the same polycistron, there is a significant differential expression between ESAGs and VSGs (>140-fold), however, the regulatory mechanism has remained elusive for decades. Here, using a combination of genetic tools, super resolution microscopy, proteomics and transcriptomics analyses, we identified three novel proteins, which are recruited in a hierarchical manner, forming discreet sub-nuclear condensates that are developmentally regulated and negatively regulate ESAG transcripts. Among them, Expression-Site-Body-specific-protein-2 (ESB2) contains a nuclease domain that shares structural similarity to the endonuclease domain found in SMG6, a critical component of nonsense mediated decay in mammals. Mutation of key residues required for the nuclease activity impaired ESB2 localisation and function. Overall, our findings reveal a novel mechanism of post-transcriptional regulation and shed light on how specialised RNA decay can regulate expression of specific genes.