Abstract
In contrast to Trypanosoma brucei gambiense and T. b. rhodesiense (the causative agents of human African trypanosomiasis), T. b. brucei is lysed by apolipoprotein-L1 (apoL1)-containing human serum trypanolytic factors (TLF), rendering it non-infectious to humans. While the mechanisms of TLF1 uptake, apoL1 membrane integration, and T. b. gambiense and T. b. rhodesiense apoL1-resistance have been extensively characterised, our understanding of the range of factors that drive apoL1 action in T. b. brucei is limited. Selecting our bloodstream-form T. b. brucei RNAi library with recombinant apoL1 identified an array of factors that supports the trypanocidal action of apoL1, including six putative ubiquitin modifiers and several proteins putatively involved in membrane trafficking; we also identified the known apoL1 sensitivity determinants, TbKIFC1 and the V-ATPase. Most prominent amongst the novel apoL1 sensitivity determinants was a putative ubiquitin ligase. Intriguingly, while loss of this ubiquitin ligase reduces parasite sensitivity to apoL1, its loss enhances parasite sensitivity to TLF1-dominated normal human serum, indicating that free and TLF1-bound apoL1 have contrasting modes-of-action. Indeed, loss of the known human serum sensitivity determinants, p67 (lysosomal associated membrane protein) and the cathepsin-L regulator, ‘inhibitor of cysteine peptidase’, had no effect on sensitivity to free apoL1. Our findings highlight a complex network of proteins that influences apoL1 action, with implications for our understanding of the anti-trypanosomal action of human serum.
Highlights
Trypanosoma brucei ssp. and the related kinetoplastid parasites, T. congolense and T. vivax, are endemic to sub-Saharan Africa
While the serum resistance-associated (SRA) sequence is associated with a specific sub-telomeric variant surface glycoprotein (VSG) expression site and its expression varies between T. b. rhodesiense isolates [19], expression of T. b. gambiense-specific glycoprotein (TgsGP) by group 1 T. b. gambiense is constitutive, rendering all isolates resistant to lysis by human serum [24]
Selection of BSF T. b. brucei RNAi libraries has previously been used to identify parasite factors that drive the ability of human serum to lyse non-human infective African trypanosomes [32, 36]
Summary
Trypanosoma brucei ssp. and the related kinetoplastid parasites, T. congolense and T. vivax, are endemic to sub-Saharan Africa. Rhodesiense cause an estimated 20,000 cases of human African trypanosomiasis (HAT) per year [1], but as recently as the 1990s there were thought to be up to 500,000 cases per year [2]. Brucei, are sensitive to lysis by human serum. ApoL1 forms pores in the trypanosome endosomal and other membranes, a process dependent on conformational change driven by decreasing pH through the parasite’s endosomal-lysosomal system [12,13,14,15,16]. Rhodesiense is able to evade this lytic attack by expressing the serum resistance-associated (SRA) protein, which binds apoL1 in the endosomal-lysosomal system and prevents pore formation [18, 19]. Gambiense is constitutive, rendering all isolates resistant to lysis by human serum [24] While the SRA sequence is associated with a specific sub-telomeric VSG expression site and its expression varies between T. b. rhodesiense isolates [19], expression of TgsGP by group 1 T. b. gambiense is constitutive, rendering all isolates resistant to lysis by human serum [24]
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