Selective inhibitors of trypanosomal uridylyl transferase RET1 establish druggability of RNA post-transcriptional modifications
نویسندگان
چکیده
Non-coding RNAs are crucial regulators for a vast array of cellular processes and have been implicated in human disease. These biological processes represent a hitherto untapped resource in our fight against disease. In this work we identify small molecule inhibitors of a non-coding RNA uridylylation pathway. The TUTase family of enzymes is important for modulating non-coding RNA pathways in both human cancer and pathogen systems. We demonstrate that this new class of drug target can be accessed with traditional drug discovery techniques. Using the Trypanosoma brucei TUTase, RET1, we identify TUTase inhibitors and lay the groundwork for the use of this new target class as a therapeutic opportunity for the under-served disease area of African Trypanosomiasis. In a broader sense this work demonstrates the therapeutic potential for targeting RNA post-transcriptional modifications with small molecules in human disease.
منابع مشابه
RNA-editing terminal uridylyl transferase 1: identification of functional domains by mutational analysis.
The catalytic, RNA-binding and oligomerization domains of the RNA-editing terminal uridylyl transferase 1 (RET1) from Leishmania tarentolae mitochondria were characterized by mutational analysis. Significant N- and C-terminal portions of the protein were found to be dispensable for UTP polymerization in vitro. Changes of conserved amino acids in the active site demonstrated a general similarity...
متن کاملUTP-dependent turnover of Trypanosoma brucei mitochondrial mRNA requires UTP polymerization and involves the RET1 TUTase.
Trypanosoma brucei mitochondria possess a unique RNA decay pathway in which rapid degradation of polyadenylated mRNAs is dependent on the addition of UTP, as measured by in organello pulse chase assays. To determine the mechanism by which UTP stimulates the degradation of polyadenylated RNAs, we performed in organello pulse chase assays under different conditions. Treatment of mitochondria with...
متن کاملA tale of two TUTases.
The insertion and deletion of U residues at specific sites in mRNAs in trypanosome mitochondria is thought to involve 3' terminal uridylyl transferase (TUTase) activity. TUTase activity is also required to create the nonencoded 3' oligo[U] tails of the transacting guide RNAs (gRNAs). We have described two TUTases, RET1 (RNA editing TUTase 1) and RET2 (RNA editing TUTase 2) as components of diff...
متن کاملA Comparative Study of the Structural Dynamics of Four Terminal Uridylyl Transferases
African trypanosomiasis occurs in 36 countries in sub-Saharan Africa with 10,000 reported cases annually. No definitive remedy is currently available and if left untreated, the disease becomes fatal. Structural and biochemical studies of trypanosomal terminal uridylyl transferases (TUTases) demonstrated their functional role in extensive uridylate insertion/deletion of RNA. Trypanosoma brucei R...
متن کاملStructural plasticity of Cid1 provides a basis for its distributive RNA terminal uridylyl transferase activity
Terminal uridylyl transferases (TUTs) are responsible for the post-transcriptional addition of uridyl residues to RNA 3' ends, leading in some cases to altered stability. The Schizosaccharomyces pombe TUT Cid1 is a model enzyme that has been characterized structurally at moderate resolution and provides insights into the larger and more complex mammalian TUTs, ZCCHC6 and ZCCHC11. Here, we repor...
متن کامل