BACKGROUND: Thymidylate kinase (TMPK) is a nucleoside monophosphate kinase that catalyzes the reversible phosphoryltransfer between ATP and TMP to yield ADP and TDP. In addition to its vital role in supplying precursors for DNA synthesis, human TMPK has an important medical role participating in the activation of a number of anti-HIV prodrugs. RESULTS: Crystal structures of human TMPK in complex with TMP and ADP, TMP and the ATP analog AppNHp, TMP with ADP and the phosphoryl analog AlF(3), TDP and ADP, and the bisubstrate analog TP(5)A were determined. The conformations of the P-loop, the LID region, and the adenine-binding loop vary according to the nature of the complex. Substitution of ADP by AppNHp results in partial closure of the P-loop and the rotation of the TMP phosphate group to a catalytically unfavorable position, which rotates back in the AlF(3) complex to a position suitable for in-line attack. In the fully closed state observed in the TP(5)A and the TDP-ADP complexes, Asp15 interacts strongly with the 3'-hydroxyl group of TMP. CONCLUSIONS: The observed changes of nucleotide state and conformation and the corresponding protein structural changes are correlated with intermediates occurring along the reaction coordinate and show the sequence of events occurring during phosphate transfer. The low catalytic activity of human TMPK appears to be determined by structural changes required to achieve catalytic competence and it is suggested that a mechanism might exist to accelerate the activity.
BACKGROUND:Thymidylate kinase (TMPK) is a nucleoside monophosphate kinase that catalyzes the reversible phosphoryltransfer between ATP and TMP to yield ADP and TDP. In addition to its vital role in supplying precursors for DNA synthesis, humanTMPK has an important medical role participating in the activation of a number of anti-HIV prodrugs. RESULTS: Crystal structures of humanTMPK in complex with TMP and ADP, TMP and the ATP analog AppNHp, TMP with ADP and the phosphoryl analog AlF(3), TDP and ADP, and the bisubstrate analog TP(5)A were determined. The conformations of the P-loop, the LID region, and the adenine-binding loop vary according to the nature of the complex. Substitution of ADP by AppNHp results in partial closure of the P-loop and the rotation of the TMP phosphate group to a catalytically unfavorable position, which rotates back in the AlF(3) complex to a position suitable for in-line attack. In the fully closed state observed in the TP(5)A and the TDP-ADP complexes, Asp15 interacts strongly with the 3'-hydroxyl group of TMP. CONCLUSIONS: The observed changes of nucleotide state and conformation and the corresponding protein structural changes are correlated with intermediates occurring along the reaction coordinate and show the sequence of events occurring during phosphate transfer. The low catalytic activity of humanTMPK appears to be determined by structural changes required to achieve catalytic competence and it is suggested that a mechanism might exist to accelerate the activity.
Authors: Jun Yong Choi; Mark S Plummer; Jeremy Starr; Charlene R Desbonnet; Holly Soutter; Jeanne Chang; J Richard Miller; Keith Dillman; Alita A Miller; William R Roush Journal: J Med Chem Date: 2012-01-13 Impact factor: 7.446
Authors: Alice E Parnell; Silja Mordhorst; Florian Kemper; Mariacarmela Giurrandino; Josh P Prince; Nikola J Schwarzer; Alexandre Hofer; Daniel Wohlwend; Henning J Jessen; Stefan Gerhardt; Oliver Einsle; Petra C F Oyston; Jennifer N Andexer; Peter L Roach Journal: Proc Natl Acad Sci U S A Date: 2018-03-12 Impact factor: 11.205
Authors: Christophe Caillat; Dimitri Topalis; Luigi A Agrofoglio; Sylvie Pochet; Jan Balzarini; Dominique Deville-Bonne; Philippe Meyer Journal: Proc Natl Acad Sci U S A Date: 2008-10-29 Impact factor: 11.205
Authors: Masayo Kotaka; Balvinder Dhaliwal; Jingshan Ren; Charles E Nichols; Richard Angell; Michael Lockyer; Alastair R Hawkins; David K Stammers Journal: Protein Sci Date: 2006-03-07 Impact factor: 6.725
Authors: James J Kohler; Seyed H Hosseini; Ioan Cucoranu; Olga Zhelyabovska; Elgin Green; Kristopher Ivey; Allison Abuin; Earl Fields; Amy Hoying; Rodney Russ; Robert Santoianni; C Michael Raper; Qinglin Yang; Arnon Lavie; William Lewis Journal: Lab Invest Date: 2010-01-11 Impact factor: 5.662