Abstract
5’-3’ decay is the major mRNA decay pathway in many eukaryotes, including trypanosomes. After deadenylation, mRNAs are decapped by the nudix hydrolase DCP2 of the decapping complex and finally degraded by the 5’-3’ exoribonuclease. Uniquely, trypanosomes lack homologues to all subunits of the decapping complex, while deadenylation and 5’-3’ degradation are conserved. Here, I show that the parasites use an ApaH-like phosphatase (ALPH1) as their major mRNA decapping enzyme. The protein was recently identified as a novel trypanosome stress granule protein and as involved in mRNA binding. A fraction of ALPH1 co-localises exclusively with the trypanosome 5’-3’ exoribonuclease XRNA to a special granule at the posterior pole of the cell, indicating a connection between the two enzymes. RNAi depletion of ALPH1 is lethal and causes a massive increase in total mRNAs that are deadenylated, but have not yet started 5’-3’ decay. These data suggest that ALPH1 acts downstream of deadenylation and upstream of mRNA degradation, consistent with a function in mRNA decapping. In vitro experiments show that recombinant, N-terminally truncated ALHP1 protein, but not a catalytically inactive mutant, sensitises the capped trypanosome spliced leader RNA to yeast Xrn1, but only if an RNA 5’ polyphosphatase is included. This indicates that the decapping mechanism of ALPH1 differs from the decapping mechanism of Dcp2 by leaving more than one phosphate group at the mRNA’s 5’ end. This is the first reported function of a eukaryotic ApaH-like phosphatase, a bacterial-derived class of enzymes present in all phylogenetic super-groups of the eukaryotic kingdom. The substrates of eukaryotic ApaH-like phosphatases are unknown. However, the substrate of the related bacterial enzyme ApaH, diadenosine tetraphosphate, is highly reminiscent of a eukaryotic mRNA cap.
Highlights
One hallmark of eukaryotic mRNAs is the mRNA cap, a 7-methyl-guanosine bound 5’-5’ to the mRNA’s 5’ end by a triphosphate bridge
Eukaryotic mRNAs are stabilised by a 5’ cap and one important step in mRNA decay is the removal of this cap by the nudix domain protein Dcp2 of the decapping complex
These changes are characteristic for an ApaH-like phosphatase (Alph), a subgroup of the protein phosphatase (PPP) family that is closely related to the bacterial enzyme ApaH [41,42]
Summary
One hallmark of eukaryotic mRNAs is the mRNA cap, a 7-methyl-guanosine bound 5’-5’ to the mRNA’s 5’ end by a triphosphate bridge. For mRNA degradation, the circular structure is resolved by the removal of the poly(A) tail by the deadenylase of the Caf1/Ccr4/ Not complex. Deadenylated mRNAs are targets for one of two alternative decay pathways. MRNA can be degraded 3’-5’ by the exosome followed by the hydrolysis of the remaining capped di- or oligo-nucleotides by the pyrophosphatase DcpS. MRNA is decapped by the Dcp1/Dcp complex, followed by 5’-3’ exonucleolytic decay by the major cytoplasmic exoribonuclease XRN1. In many eukaryotes, including yeast and trypanosomes, 5’-3’ decay is the dominant mRNA decay pathway. Enzymes of this decay pathway localise to RNA granules, cytoplasmic RNA protein aggregates of largely unknown function. RNA granules are present in all eukaryotes, including trypanosomes [3]
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