Development of an efficient in vitro transcription system for bloodstream form Trypanosoma brucei reveals life cycle-independent functionality of class I transcription factor A

Abstract

Trypanosomatid parasites possess extremely divergent transcription factors whose identification typically relied on biochemical, structural and functional analyses because they could not be identified by standard sequence analysis. For example, subunits of the Trypanosoma brucei mediator and class I transcription factor A (CITFA) have no sequence resemblance to putative counterparts in higher eukaryotes. Therefore, homologous in vitro transcription systems have been crucial in evaluating the transcriptional roles of T. brucei proteins but so far such systems have been restricted to the insect-stage, procyclic form (PF) of the parasite. Here, we report the development of a homologous system for the mammalian-infective, bloodstream form (BF) of T. brucei which supports accurately initiated transcription from three different RNA polymerase (pol) I promoters as well as from the RNA pol II-recruiting spliced leader RNA gene promoter. The system is based on a small scale extract preparation procedure which accommodates the low cell densities obtainable in BF culture. BF and PF systems behave surprisingly similar and we show that the CITFA complex purified from procyclic extract is fully functional in the BF system indicating that the transcriptional machinery in general is equivalent in both life cycle stages. A notable difference, however, was observed with the RNA pol I-recruiting GPEET procyclin promoter whose reduced promoter strength and increased sensitivity to manganese ions in the BF system suggests the presence of a specific transcriptional activator in the PF system.