Compartmentalized thymidine phosphorylation by mitochondrial nucleotide kinases TK2 and CMPK2
Avery S. Ward, Vasudeva G. Kamath, Chia-Heng Hsiung, Zachary J. Lizenby, Alexander G. Gillish, D. Stave Kohtz, Edward E. McKee

TL;DR
The study shows that mitochondria in postmitotic tissues use a two-step process to phosphorylate thymidine, involving TK2 and CMPK2 enzymes working in close proximity.
Contribution
The novel finding is that mitochondrial TK2 and CMPK2 work together in a compartmentalized manner to phosphorylate thymidine, preventing TMP diffusion.
Findings
TMP cannot be used as a precursor for thymidine triphosphate synthesis unless dephosphorylated to thymidine first.
Proximity labeling and immunofluorescence microscopy support that TK2 and CMPK2 interact in mitochondria.
CMPK2 association with TK2 allows it to display cytosolic thymidylate kinase 2 activity.
Abstract
Deoxynucleotides (dNTPs) in postmitotic tissues rely on deoxynucleoside salvage pathways in order to repair and replicate nuclear and mitochondrial DNA. Previous work from our laboratory showed in perfused rat hearts and isolated mitochondria that the only substrate for thymidine triphosphate synthesis is thymidine. When thymidylate (thymidine monophosphate [TMP]) is provided to bypass thymidine kinase 2 (TK2), the substrate is readily dephosphorylated to thymidine before salvage occurs, suggesting compartmentalization within the heart mitochondrial matrix. The goal of this work extends these findings in the heart to mitochondria from other postmitotic tissues, including rat liver, kidney, and brain. Using azidothymidine to block mitochondrial TK2, we demonstrate that TMP cannot serve as a precursor for thymidine triphosphate synthesis in isolated mitochondria from any of these tissues…
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Taxonomy
TopicsProtein Tyrosine Phosphatases · Cancer, Hypoxia, and Metabolism · Biochemical and Molecular Research
