Ligand-affected shift of Na+/H+ exchange pHi set point in human blood platelets, rapidly revealed by a novel approach.

The Na+/H+ exchange time-course of BCECF-loaded human platelets, suspended in isotonic media containing NaCl and sodium propionate and activated by intracellular acidification, was measured spectrofluorimetrically. Sequential alkalinization rates decline exponentially as a function of the changing intracellular pH (pHi) and its linear expression (log rate vs. pHi) extrapolates reproducibly to the pHi set point for the Na+/H+ exchange activation. The set point of control platelets (7.28 +/- 0.01) is shifted rapidly (discernibly less than or equal to 30 s) and markedly to alkaline pHi (7.62 +/- 0.03) by PMA, that activates protein kinase C and is shifted to acidic pHi (7.05 +/- 0.01) by staurosporine, which inhibits protein kinases. The addition of 5-N-(3-aminophenyl)amiloride reveals that the alkalinization measured is predominantly Na+/H+ exchange with only a minute contribution (delta pHi = 0.012 +/- 0.002 in 1 min) of an acid loading component, at pHi greater than 7.2. The results support recent studies concluding that the set point indeed reflects the phosphorylation state of the Na+/H+ exchanger.