Publications

• Properties of the thiamin triphosphate-synthesizing activity catalyzed by adenylate kinase (isoenzyme 1).

  Shikata H., Egi Y., Koyama S., Yamada K., Kawasaki T.

  Adenylate kinase isozyme 1 (AK1) catalyzes thiamin triphosphate (TTP) formation from thiamin diphosphate (TDP) and ADP. The properties of the TTP-synthesizing activity of purified AK1 from porcine skeletal muscle were studied. The activity was found to require TDP, ADP, and Mg2+, and ATP was only ... >> More

  Adenylate kinase isozyme 1 (AK1) catalyzes thiamin triphosphate (TTP) formation from thiamin diphosphate (TDP) and ADP. The properties of the TTP-synthesizing activity of purified AK1 from porcine skeletal muscle were studied. The activity was found to require TDP, ADP, and Mg2+, and ATP was only 14.4% as active as ADP. Thiamin monophosphate (TMP) and thiamin were not utilized as substrates. ADP was specific as a phosphate donor; and CDP, UDP, and GDP supported TTP formation at rates less than 1% of that with ADP. Optimal pH and temperature for the TTP-synthesizing activity were 10.0 and 37 degrees C, respectively. The activity showed saturation kinetics for both substrates, and the Km values for TDP and ADP were calculated to be 0.83 mM and 43 microM, respectively. The enzyme catalyzed the reverse reaction (TTP + AMP----TDP + ADP) and stoichiometry between TTP and TDP was demonstrated in the forward and reverse reactions. << Less

  Biochem. Int. 18:943-949(1989) [PubMed] [EuropePMC]

• Thiamine triphosphate: a ubiquitous molecule in search of a physiological role.

  Bettendorff L., Lakaye B., Kohn G., Wins P.

  Thiamine triphosphate (ThTP) was discovered over 60 years ago and it was long thought to be a specifically neuroactive compound. Its presence in most cell types, from bacteria to mammals, would suggest a more general role but this remains undefined. In contrast to thiamine diphosphate (ThDP), ThTP ... >> More

  Thiamine triphosphate (ThTP) was discovered over 60 years ago and it was long thought to be a specifically neuroactive compound. Its presence in most cell types, from bacteria to mammals, would suggest a more general role but this remains undefined. In contrast to thiamine diphosphate (ThDP), ThTP is not a coenzyme. In E. coli cells, ThTP is transiently produced in response to amino acid starvation, while in mammalian cells, it is constitutively produced at a low rate. Though it was long thought that ThTP was synthesized by a ThDP:ATP phosphotransferase, more recent studies indicate that it can be synthesized by two different enzymes: (1) adenylate kinase 1 in the cytosol and (2) FoF1-ATP synthase in brain mitochondria. Both mechanisms are conserved from bacteria to mammals. Thus ThTP synthesis does not seem to require a specific enzyme. In contrast, its hydrolysis is catalyzed, at least in mammalian tissues, by a very specific cytosolic thiamine triphosphatase (ThTPase), controlling the steady-state cellular concentration of ThTP. In some tissues where adenylate kinase activity is high and ThTPase is absent, ThTP accumulates, reaching ≥ 70% of total thiamine, with no obvious physiological consequences. In some animal tissues, ThTP was able to phosphorylate proteins, and activate a high-conductance anion channel in vitro. These observations raise the possibility that ThTP is part of a still uncharacterized cellular signaling pathway. On the other hand, its synthesis by a chemiosmotic mechanism in mitochondria and respiring bacteria might suggest a role in cellular energetics. << Less

  Metab Brain Dis 29:1069-1082(2014) [PubMed] [EuropePMC]