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The effect of carbon dioxide on the intracellular pH and buffering power of snail neurones.
Author(s) -
Thomas R C
Publication year - 1976
Publication title -
the journal of physiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.802
H-Index - 240
eISSN - 1469-7793
pISSN - 0022-3751
DOI - 10.1113/jphysiol.1976.sp011305
Subject(s) - intracellular ph , acetazolamide , chemistry , carbonic anhydrase , carbonic acid , intracellular , carbon dioxide , potentiometric titration , chromatography , analytical chemistry (journal) , biophysics , biochemistry , electrode , anesthesia , enzyme , medicine , organic chemistry , biology
1. Intracellular pH (pHi) was measured using pH‐sensitive glass micro‐electrodes. The effects on pHi of CO2 applied externally and HCO3‐, H+ and NH4+ injected iontophoretically, were investigated. 2. The transport numbers for iontophoretic injection into aqueous micro‐droples were found by potentiometric titration to be 0‐3 for HCO3‐ and 0‐94 for H+. 3. Exposure to Ringer, pH 7‐5, equilibrated with 2‐2% CO2 caused a rapid, but only transient, fall in pHi. Within 1 or 2 min pHi began to return exponentially to normal, with a time constant of about 5 min. 4. When external CO2 was removed, pHi rapidly increased, and then slowly returned to normal. The pHi changes with CO2 application or removal gave a calculated intracellular buffer value of about 30 m‐equiv H+/pH unit per litre. 5. Injection of HCO3‐ caused a rise in pHi very similar to that seen on removal of external CO2. 6. The pHi responses to CO2 application, CO2 removal and HCO3‐ injection were slowed by the carbonic anhydrase inhibitor acetazolamide. 7. H+ injection caused a transient fall in pHi. In CO2 Ringer pHi fell less and recovered faster than in CO2‐free Ringer. Calculation of the internal buffer value from the pHi responses to H+ and HCO3‐ injection gave very similar values. 8. The internal buffer value (measured by H+ injection) was greatly increased by exposure to CO2 Ringer. Acetazolamide reduced this effect of CO2, suggesting that the function of intracellular carbonic anhydrase may be to maximize the internal buffering power in CO2. 9. It was concluded that the internal HCO3‐ was determined primarily by the CO2 level and pHi, that internal HCO3‐ made a large contribution to the buffering power, and that after internal acidfication pHi was restored to normal by active transport of H+, OH‐ or HCO3‐ across the cell membrane. The active transport was much faster in CO2 than in CO2‐free Ringer.