Co-transport of anions and neutral solutes with cations across charged biological membranes. Effects of surrface potential on uptake kinetics

Abstract

General rate equations have been developed for the co-transport of an anion with one or two cations across a negatively charged biological membrane. The effects of surface potential on the kinetical parameters of co-transport of monovalent anions with monovalent cations have been investigated in more detail. The influence of changes in the surface potential on ion uptake kinetics appears to be markedly affected by the properties of the co-transport system. This can be shown by investigating boundary cases of the general model, namely (a) random order of binding of the ions, (b) anion binds before cations, (c) cations bind before anion. Since the effects of the surface potential are different for these three cases, these effects might serve as (additional) discrimination criteria. The effect of the surface potential on anion uptake kinetics via a co-transport system to which two cations can bind is rather complex: maxima or minima of the apparent affinity constant K m of anion uptake may occur. Not only the magnitude of the effect of changes in the surface potential, but also its direction (stimulation, inhibition), is influenced by the co-substrate (cation) concentration. Such effects may also occur if only one cation can bind to the translocator, provided that OH − ions compete for the anion transport site. In addition, the case of co-transport of a neutral solute with a monovalent cation has been investigated. It has been shown, that monovalent cation has been investigated. It has been shown, that also in this case, the effect of changes in the surfaces potential is affected by the order of binding of the substrates to the translocator.