Mechanism of Folate Transport in Lactobacillus casei: Evidence for a Component Shared with the Thiamine and Biotin Transport Systems

AUTOR(ES)

Henderson, Gary B.

RESUMO

Lactobacillus casei cells have been shown previously to utilize two separate binding proteins for the transport of folate and thiamine. Folate transport, however, was found to be strongly inhibited by thiamine in spite of the fact that the folate-binding protein has no measurable affinity for thiamine. This inhibition, which did not fluctuate with intracellular adenosine triphosphate levels, occurred only in cells containing functional transport systems for both vitamins and was noncompetitive with folate but competitive with respect to the level of folate-binding protein. Folate uptake in cells containing optimally induced transport systems for both vitamins was inhibited by thiamine (1 to 10 μM) to a maximum of 45%; the latter value increased to 77% in cells that contained a progressively diminished folate transport system and a normal thiamine system. Cells preloaded with thiamine could transport folate at a normal rate, indicating that the inhibition resulted from the entry of thiamine rather than from its presence in the cell. In a similar fashion, folate (1 to 10 μM) did not interfere with the binding of thiamine to its transport protein, but inhibited thiamine transport (to a maximum of 25%). Competition also extended to biotin, whose transport was strongly inhibited (58% and 73%, respectively) by the simultaneous uptake of either folate or thiamine; biotin, however, had only a minimal effect on either folate or thiamine transport. The nicotinate transport system was unaffected by co-transport with folate, thiamine, or biotin. These results are consistent with the hypothesis that the folate, thiamine, and biotin transport systems of L. casei each function via a specific binding protein, and that they require, in addition, a common component present in limiting amounts per cell. The latter may be a protein required for the coupling of energy to these transport processes.

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