AI Article Synopsis
- TUM1, also known as MPST, is involved in essential cellular functions, including the modification of tRNAs and the production of hydrogen sulfide as a signaling molecule.
- The study identified and characterized two new splice variants of TUM1, TUM1-Iso1 and TUM1-Iso2, showing similar enzymatic properties but different localizations; TUM1-Iso1 is found only in the cytosol while TUM1-Iso2 is present in both the cytosol and mitochondria.
- Interaction studies suggest that TUM1 plays critical roles in sulfur transfer related to tRNA thiolation and molybdenum cofactor biosynthesis, indicating distinct functions for each isoform based on their localization.
Article Abstract
The human tRNA thiouridine modification protein (TUM1), also designated as 3-mercaptopyruvate sulfurtransferase (MPST), has been implicated in a wide range of physiological processes in the cell. The roles range from an involvement in thiolation of cytosolic tRNAs to the generation of H2S as signaling molecule both in mitochondria and the cytosol. TUM1 is a member of the sulfurtransferase family and catalyzes the conversion of 3-mercaptopyruvate to pyruvate and protein-bound persulfide. Here, we purified and characterized two novel TUM1 splice variants, designated as TUM1-Iso1 and TUM1-Iso2. The purified proteins showed similar kinetic behavior and comparable pH and temperature dependence. Cellular localization studies, however, showed a different localization pattern between the isoforms. TUM1-Iso1 is exclusively localized in the cytosol, whereas TUM1-Iso2 showed a dual localization both in the cytosol and mitochondria. Interaction studies were performed with the isoforms both in vitro using the purified proteins and in vivo by fluorescence analysis in human cells, using the split-EGFP system. The studies showed that TUM1 interacts with the l-cysteine desulfurase NFS1 and the rhodanese-like protein MOCS3, suggesting a dual function of TUM1 both in sulfur transfer for the biosynthesis of the molybdenum cofactor, and for the thiolation of tRNA. Our studies point to distinct roles of each TUM1 isoform in the sulfur transfer processes in the cell, with different compartmentalization of the two splice variants of TUM1.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4263862 | PMC |
| http://dx.doi.org/10.1074/jbc.M114.605733 | DOI Listing |
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