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  • Title: Inhibition of cellular transport processes by 5-thio-D-glucopyranose.
    Author: Whistler RL, Lake WC.
    Journal: Biochem J; 1972 Dec; 130(4):919-25. PubMed ID: 4656804.
    Abstract:
    5-Thio-d-glucopyranose, the nearest analogue of normal d-glucose, which is proving a useful tool in examinations of d-glucose biochemistry, affects active and facilitated-diffusion transport processes. 5-Thio-d-glucose is readily transported in rabbit kidney-cortex slices and reaches a tissue/medium ratio of 6.5 within 40min. The sulphur analogue shows typical saturation kinetics with a K(m) value of 2.4mm and V(max.) value of 70mumol/h per g of cell water. Uptake of 5-thio-d-glucose is phlorrhizin-sensitive, Na(+)-dependent and energy-dependent. d-Galactose and methyl alpha-d-glucopyranoside transport is competitively inhibited by 5-thio-d-glucose with K(i) values of 4.8 and 9.7mm respectively. 5-Thio-d-glucose thus shows all of the characteristics of active transport in kidney cortex. Transport of neutral amino acids in rat kidney cortex is inhibited by 5-thio-d-glucose. Thus 5.6mm-5-thio-d-glucose causes a 25-30% inhibition of the transport of glycine and the non-metabolized amino acids cycloleucine and alpha-aminoisobutyric acid. 5-Thio-d-glucose is freely taken up by the facilitated-diffusion transport system in rat diaphragm muscle. The sulphur analogue inhibits the transport of d-xylose in this tissue but has no effect on the uptake of d-arabinose. It is concluded that the ring heteroatom is not an effector of binding in the transport processes examined and causes no important alteration in the conformation of the sugar. The diabetogenic action produced by 5-thio-d-glucose is due, in part, to the ability of the analogue to interfere with cellular transport processes that use d-glucose.
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