The association between acidification and electrogenic events in the rat proximal jejunum

1. Simultaneous measurement of hydrogen ion production, transmural potential difference and intermittent short‐circuit current (SCC) was made in the rat proximal jejunum in vitro : similarly, potassium and sodium ion movements were measured to investigate the relationship of acidification to electrogenic events and associated ion movements in the jejunum. 2. Acidification correlated significantly with the short‐circuit current and both were inhibited by 10 m M serosal ouabain or 10 m M mucosal aminophylline. Both inhibitors had effects on net potassium movement but not on net sodium movement. Moreover, in isotope studies whereas 10 m M serosal ouabain reduced the J ms sodium flux, 10 m M mucosal aminophylline had no effect, i.e. aminophylline can reduce both short‐circuit current and acidification without perceptibly altering the serosally directed sodium flux. 3. In low‐sodium buffers in which acidification still occurs although reduced, transmural potential differences occur of reversed polarity that are apparently unrelated to sodium diffusion potential differences (as evidenced by isotopic sodium efflux experiments) and which could be caused by hydrogen ion production. In low sodium buffers however the inhibitors have opposing effects, ouabain causing an increase and aminophylline a decrease in the reversed potential differences. 4. A model for acidification (that of potassium rather than sodium ion exchange for the hydrogen ion and hydroxyl for chloride ion exchange) is proposed to explain the present experimental findings and other diverse observations in the literature: although either step might be the electrogenic step, acidification must be also considered as a component of the jejunal short‐circuit current.