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Abstract

Sulfate transport across the red cell membrane is enhanced by the newly synthesised, water-soluble and nonpenetrating dansyl chloride derivative 2-(N-piperidine)ethylamine-1-napththyl-5-sulfonylchloride (PENS-Cl). The transport is only enhanced if the potentiating agent 2-(4-aminophenyl-3-sulfonic acid)-6-methylbenzothiazol-7-sulfonic acid (APMB)is present during incubation with PENS-Cl. The enhanced flux is reduced by the anion-transport inhibitor 4,4′-diisothiocyanatodihydrostilbene-2,2′-disulfonate (H₂DIDS) to about the same low level as in untreated controls. In contrast to dansyl chloride, PENS-Cl does not increase cation leakage from the red cells. The effects of PENS-Cl on sulfate transport resemble those produced by dansyl chloride. However, it can be shown that PENS-Cl only reacts with one subset of sites that are modified by dansyl chloride and involved in bringing about the enhancement of sulfate transport. This subset does not include the sites accessible to dansyl chloride in the absence of APMB. It comprises only a fraction of the sites exposed to dansyl chloride in the presence of APMB. Very little labelling of proteins of the red cell membrane can be seen after exposure of ghosts to the PENS-Cl, while dansyl chloride labels all major proteins.