AI Article Synopsis
- Trypanosoma brucei, which causes African sleeping-sickness, uses a process called quorum-sensing to create 'stumpy forms' necessary for its transmission to tsetse flies.
- Research identified REG9.1 as a key regulator that affects the expression of important genes, such as the stumpy-elevated ESAG9, and influences the transition from the proliferative forms of the parasite to these stumpy forms.
- REG9.1 not only helps control developmental changes in T. brucei but also allows for the possibility of differentiating into transmission forms without needing external cues, highlighting its significant role in the parasite's lifecycle.
Article Abstract
Trypanosoma brucei, causing African sleeping-sickness, exploits quorum-sensing (QS) to generate the 'stumpy forms' necessary for the parasite's transmission to tsetse-flies. These quiescent cells are generated by differentiation in the bloodstream from proliferative slender forms. Using genome-wide RNAi selection we screened for repressors of transmission stage-enriched mRNAs in slender forms, using the stumpy-elevated ESAG9 transcript as a model. This identified REG9.1, whose RNAi-silencing alleviated ESAG9 repression in slender forms and tsetse-midgut procyclic forms. Interestingly, trypanosome surface protein Family 5 and Family 7 mRNAs were also elevated, which, like ESAG9, are T. brucei specific and stumpy-enriched. We suggest these contribute to the distinct transmission biology and vector tropism of T. brucei from other African trypanosome species. As well as surface family regulation, REG9.1-depletion generated QS-independent development to stumpy forms in vivo, whereas REG9.1 overexpression in bloodstream forms potentiated spontaneous differentiation to procyclic forms in the absence of an external signal. Combined, this identifies REG9.1 as a regulator of developmental cell fate, controlling the expression of Trypanosoma brucei-specific molecules elevated during transmission.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5380359 | PMC |
| http://dx.doi.org/10.1371/journal.ppat.1006279 | DOI Listing |
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