RNA editing in Trypanosoma brucei requires three different editosomes.

Trypanosoma brucei has three distinct approximately 20S editosomes that catalyze RNA editing by the insertion and deletion of uridylates. Editosomes with the KREN1 or KREN2 RNase III type endonucleases specifically cleave deletion and insertion editing site substrates, respectively. We report here that editosomes with KREPB2, which also has an RNase III motif, specifically cleave cytochrome oxidase II (COII) pre-mRNA insertion editing site substrates in vitro. Conditional repression and mutation studies also show that KREPB2 is an editing endonuclease specifically required for COII mRNA editing in vivo. Furthermore, KREPB2 expression is essential for the growth and survival of bloodstream forms. Thus, editing in T. brucei requires at least three compositionally and functionally distinct approximately 20S editosomes, two of which distinguish between different insertion editing sites. This unexpected finding reveals an additional level of complexity in the RNA editing process and suggests a mechanism for how the selection of sites for editing in vivo is controlled.

An essential RNase III insertion editing endonuclease in Trypanosoma brucei.

RNA editing adds and deletes uridine nucleotides in many preedited mRNAs to create translatable mRNAs in the mitochondria of the parasite Trypanosoma brucei. Kinetoplastid RNA editing protein B3 (KREPB3, formerly TbMP61) is part of the multiprotein complex that catalyzes editing in T. brucei and contains an RNase III motif that suggests nuclease function. Repression of KREPB3 expression, either by RNA interference in procyclic forms (PFs) or by conditional inactivation of an ectopic KREPB3 allele in bloodstream forms (BFs) that lack both endogenous alleles, strongly inhibited growth and in vivo editing in PFs and completely blocked them in BFs. KREPB3 repression inhibited cleavage of insertion editing substrates but not deletion editing substrates in vitro, whereas the terminal uridylyl transferase, U-specific exoribonuclease, and ligase activities of editing were unaffected, and approximately 20S editosomes were retained. Expression of KREPB3 alleles with single amino acid mutations in the RNase III motif had similar consequences. These data indicate that KREPB3 is an RNA editing endonuclease that is specific for insertion sites and is accordingly renamed KREN2 (kinetoplastid RNA editing endonuclease 2).

A deletion site editing endonuclease in Trypanosoma brucei.

RNA editing in Trypanosoma brucei inserts and deletes uridines in mitochondrial mRNAs by a series of enzymatic steps that are catalyzed by a multiprotein complex, the editosome. KREPB1 and two related editosome proteins KREPB2 and KREPB3 contain motifs that suggest endonuclease and RNA/protein interaction functions. Repression of KREPB1 expression in procyclic forms by RNAi inhibited growth, in vivo editing, and in vitro endoribonucleolytic cleavage of deletion substrates. However, cleavage of insertion substrates and the exoUase, TUTase, and ligase catalytic activities of editing were retained by 20S editosomes. Repression of expression of an ectopic KREPB1 allele in bloodstream forms lacking both endogenous alleles or exclusive expression of KREPB1 with point mutations in the putative RNase III catalytic domain also blocked growth, in vivo editing, and abolished cleavage of deletion substrates, without affecting the other editing steps. These data indicate that KREPB1 is an endoribonuclease that is specific for RNA editing deletion sites.