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  2. Thiamine and selected thiamine antivitamins - biological activity and methods of synthesis

Thiamine and selected thiamine antivitamins - biological activity and methods of synthesis

  • Biosci Rep. 2018 Jan 10;38(1):BSR20171148. doi: 10.1042/BSR20171148.
Adam Tylicki 1 Zenon Łotowski 2 Magdalena Siemieniuk 1 Artur Ratkiewicz 3
Affiliations

Affiliations

  • 1 Department of Cytobiochemistry, Faculty of Biology and Chemistry, University of Bialystok, Ciolkowskiego 1J, 15-245 Białystok, Poland.
  • 2 Department of Natural Product Chemistry, Faculty of Biology and Chemistry, University of Bialystok, Ciolkowskiego 1K, 15-245 Białystok, Poland zlch@uwb.edu.pl.
  • 3 Department of Theoretical Chemistry, Faculty of Biology and Chemistry, University of Bialystok, Ciolkowskiego 1K, 15-245 Białystok, Poland.
Abstract

Thiamine plays a very important coenzymatic and non-coenzymatic role in the regulation of basic metabolism. Thiamine diphosphate is a coenzyme of many Enzymes, most of which occur in prokaryotes. Pyruvate dehydrogenase and 2-oxoglutarate dehydrogenase complexes as well as Transketolase are the examples of thiamine-dependent Enzymes present in eukaryotes, including human. Therefore, thiamine is considered as drug or diet supplement which can support the treatment of many pathologies including neurodegenerative and vascular system diseases. On the other hand, thiamine antivitamins, which can interact with thiamine-dependent Enzymes impeding their native functions, thiamine transport into the cells or a thiamine diphosphate synthesis, are good propose to drug design. The development of organic chemistry in the last century allowed the synthesis of various thiamine antimetabolites such as amprolium, pyrithiamine, oxythiamine, or 3-deazathiamine. Results of biochemical and theoretical chemistry research show that affinity to thiamine diphosphate-dependent Enzymes of these synthetic molecules exceeds the affinity of native coenzyme. Therefore, some of them have already been used in the treatment of coccidiosis (amprolium), other are extensively studied as cytostatics in the treatment of Cancer or Fungal infections (oxythiamine and pyrithiamine). This review summarizes the current knowledge concerning the synthesis and mechanisms of action of selected thiamine antivitamins and indicates the potential of their practical use.

Keywords

3-deazathiamine; amprolium; oxythiamine; pyrithiamine; thiamine.

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