Pancreatic duct cells secrete a HCO3--rich (~140 mM) fluid. Using a computer model of the pancreatic duct, Sohma, et al. have demonstrated that the activity of a Cl-/ HCO3- exchanger with a 1 : 1 stoichiometry at the apical membrane would have to be suppressed in order to achieve such a HCO3--rich secretion. Recently the apical exchanger in pancreatic ducts has been identified as SLC26A6 and this probably mediates most of Cl--dependent HCO3- secretion across the apical membrane. SLC26A6 is reported to mediate electrogenic Cl-/2HCO3- exchange when expressed in Xenopus oocytes. To assess the implications of this 1 : 2 stoichiometry for HCO3- secretion, we have reconstructed the Sohma model using MATLAB/Simulink. To do this we have formulated an expression for the turnover rate of Cl-/2HCO3- exchange using network thermodynamics and we have estimated the constants from published experimental data. Preliminary data suggest that the 1 : 2 stoichiometry of SLC26A6 would favor HCO3- secretion at higher concentrations
