Showing papers by "Ivanka Markovic published in 1995"

Tiazofurine Uptake by the Isolated Guinea Pig Heart

Abstract: Tiazofurine is a selective inhibitor of the enzyme inosine monophosphate dehydrogenase, and exhibits potent antitumor activity. Considering the potential side effects on the heart, [3H] tiazofurine uptake into the cardiomyocytes, as well as the mechanism of transport, were studied in the isolated perfused guinea pig heart, using the rapid single circulation, paired-tracer technique. The maximal cellular uptake (Umax) of [3H] tiazofurine ranged from 19% to 25% of themax injected dose, with total cellular uptake (Utot) ranging 12.1-15.6%. The addition of unlabeled tiazofurine caused inhibition of [3H] tiazofurine uptake, with a Umax value of 9.06 ± 4.6%. Therefore, the uptake of tiamzofuraxine into cardiomyocytes could be considered a saturable process. The inhibition of [3H] tiazofurine uptake caused by adenosine and dipyridamole was of the same degree as the inhibition by unlabeled tiazofurine. Thus, it can be assumed that nucleosides' transport system(s) are involved in transport of tiazofurine i...

Slow penetration of [3H] tiazofurin into guinea pig brain by a saturable mechanism.

Abstract: The aim of this study was to investigate the transport of tiazofurin (2-β-D-ribofuranosyl thiazole-4-carboxamide) across the blood-brain barrier (BBB) using brain vascular perfusion and capillary depletion method in the guinea pig. Values for volume of distribution of [ 3 H] tiazofurin in brain increased slowly and almost linearly in time, from 1% of its plasma concentration at 1 min to 5% after 15 min of perfusion. Unidirectional transport constant K in was 2.61 ± 0.21 x 10 -3 ml/min/g. According to these results, it is evident that tiazofurin slowly penetrates the BBB. Addition of unlabeled tiazofurin to the perfusing medium caused a significant decrease in the uptake of [ 3 H] labeled tiazofurin (K in = 0.77 ± 0.1 x 10 -3 ml/min/g). Therefore, penetration of tiazofurin from blood into brain seems to be a saturable process. Presence of potential inhibitors of tiazofurin blood-to-brain transport (adenosine and dipyridamole) did not cause complete inhibition of tiazofurin brain uptake. Thus, it could be assumed that transport of tiazofurin from blood into brain is only partially mediated by the nucleosides transport system. The results obtained using capillary depletion method show that tiazofurin that passes across the BBB is accumulated mostly in the brain tissue and not in brain capillaries endothelial cells.

Penetration of [3H] tiazofurin into guinea pig eye by a saturable mechanism.

Abstract: This study investigated the transport of tiazofurin (2-beta-D-ribofuranosyl thiazole-4-carboxamide) across the blood-aqueous humor barrier, using the vascular perfusion method in the guinea pig. Volume of distribution (Vd) of [3H] tiazofurin increased almost linearly in time, from 4% of its plasma concentration at 3 min to 10% after 12 min of perfusion. Unidirectional transport constant, K(in) was 7.01 +/- 1.06 x 10(-3) ml/min/g. These results indicate that tiazofurin penetrates the aqueous humor to a considerable extent. Addition of unlabelled tiazofurin to the perfusing medium caused a significant decrease in the uptake of [3H] labelled tiazofurin (K(in) = 2.60 +/- 0.91 x 10(-3) ml/min/g). Therefore, penetration of tiazofurin from blood into aqueous humor seems to be a saturable process with a diffusional component that cannot be disregarded. Such findings could be of considerable importance since this molecule is known to affect tissue metabolism.