Abstract
RACK1 is a WD-repeat protein that forms signal complexes at appropriate locations in the cell. RACK1 homologues are core components of ribosomes from yeast, plants and mammals. In contrast, a cryo-EM analysis of trypanosome ribosomes failed to detect RACK1, thus eliminating an important translational regulatory mechanism. Here we report that TbRACK1 from Trypanosoma brucei associates with eukaryotic translation elongation factor-1a (eEF1A) as determined by tandem MS of TAP-TbRACK1 affinity eluates, co-sedimentation in a sucrose gradient, and co-precipitation assays. Consistent with these observations, sucrose gradient purified 80S monosomes and translating polysomes each contained TbRACK1. When RNAi was used to deplete cells of TbRACK1, a shift in the polysome profile was observed, while the phosphorylation of a ribosomal protein increased. Under these conditions, cell growth became hypersensitive to the translational inhibitor anisomycin. The kinetoplasts and nuclei were misaligned in the postmitotic cells, resulting in partial cleavage furrow ingression during cytokinesis. Overall, these findings identify eEF1A as a novel TbRACK1 binding partner and establish TbRACK1 as a component of the trypanosome translational apparatus. The synergy between anisomycin and TbRACK1 RNAi suggests that continued translation is required for complete ingression of the cleavage furrow.
Highlights
Selective changes in protein composition accompany both the cell cycle and complex life cycle of Trypanosoma brucei
We report that TbRACK1 from Trypanosoma brucei associates with eukaryotic translation elongation factor-1a as determined by tandem MS of TAP-TbRACK1 affinity eluates, co-sedimentation in a sucrose gradient, and co-precipitation assays
These findings identify eukaryotic translation elongation factor-1a (eEF1A) as a novel TbRACK1 binding partner and establish TbRACK1 as a component of the trypanosome translational apparatus
Summary
Selective changes in protein composition accompany both the cell cycle and complex life cycle of Trypanosoma brucei. A growing number of studies demonstrate a change in protein abundance with minimal change in mRNA levels This situation has been demonstrated for individual proteins and by genome-wide analyses that compare transciptome and proteome data sets (Gale et al, 1994; Saas et al, 2000; Avila et al, 2001; Akopyants et al, 2004; Brems et al, 2005; McNicoll et al, 2006; Mayho et al, 2006; Cohen-Freue et al, 2007; Nardelli et al, 2007). These data underscore the importance of either translational or post-translational control in trypanosomatids
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