F. Rochramel et al., TRANSPORT OF URATE AND OTHER ORGANIC-ANIONS BY ANION-EXCHANGE IN HUMAN RENAL BRUSH-BORDER MEMBRANE-VESICLES, Cellular physiology and biochemistry, 6(1-2), 1996, pp. 60-71
Earlier studies demonstrated that an apical anion exchanger which acce
pts urate, chloride, aliphatic monocarboxylates, and the aromatic anio
ns, pyrazinoate (PZA) and nicotinate, plays a major role in urate reab
sorption in human proximal tubules. In substrate competition studies f
or transport, we investigated the effect of PZA on 50 mu M [C-14]-urat
e uptake in exchange of lactate, human brush-border membrane vesicles
(BBMV) being loaded with 5 mM lactate. 1 mM PZA cis-inhibited, whereas
0.1 mM PZA cis-stimulated [C-14]-urate uptake in exchange for lactate
. Such paradoxical effects suggest the cooperation of two anion exchan
gers, PZA having more affinity for a 'lactate/anion exchanger' than fo
r a 'urate/anion exchanger'. Apparent K-m of [C-14]-PZA uptake were me
asured in lactate- or urate-loaded BBMV, and were 0.33 +/- 0.06 and 0.
98 +/- 0.44 mM, respectively. Unlike [C-14]-PZA, [C-14]-orotate and [C
-14]-nicotinate uptakes were stimulated only to a minor extent in BBMV
loaded with lactate. In contrast, cis-inhibition studies in urate-loa
ded BBMV demonstrated that nicotinate and orotate had similar affinity
as PZA for the 'urate/anion exchanger'. Oxalate was shown to have aff
inity for the 'lactate/anion exchanger', but not for the 'urate/anion
exchanger'.