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Intracellular pH regulation and buffer capacity in CO2/HCO− 3-buffered media in cultured epithelial cells from rainbow trout gills (2000)

Wood, C. M. ; Pärt, P.

Springer

Journal of comparative physiology 170 (2000), S. 175-184

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ISSN: 1432-136X

Keywords: Key words Fish gills ; Cultured epithelial cells ; Intracellular pH ; Buffer capacity ; Bicarbonate buffer

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The influence of a CO2/HCO− 3-buffered medium on intracellular pH regulation of gill pavement cells from freshwater rainbow trout was examined in monolayers grown in primary culture on glass coverslips; intracellular pH (pHi) was monitored by continuous spectrofluorometric recording from cells loaded with 2′,7′-bis(2-carboxyethyl)-5(6)-carboxy-fluoroscein. When cells in HEPES-buffered medium at normal pH=7.70 were transferred to normal CO2/HCO− 3-buffered medium {P CO2=3.71 mmHg, [HCO− 3]= 6.1 mmol l−1, extracellular pH (pHe)=7.70}, they exhibited a brief acidosis but subsequently regulated the same pHi (∼7.41) as in HEPES. Buffer capacity (β) increased by the expected amount (5.5–8.0 slykes) based on intracellular [HCO− 3], and was unaffected by most drugs and treatments. However, after transfer to high P CO2=11.15 mmHg, [HCO− 3]= 18.2 mmol l−1 at the same pHe=7.70, the final regulated pHi was elevated (∼7.53). The rate of correction of alkalosis caused by washout of this high P CO2, high-HCO− 3 medium was unaffected by removal of extracellular Cl−. Removal of extracellular Na+ lowered resting pHi and greatly inhibited the rate of pHi recovery from acidosis. Bafilomycin A1 (3 μmol l−1) had no effect on these responses. However amiloride (0.2 mmol l−1) inhibited recovery from acidosis caused by washout of an ammonia prepulse, but did not affect resting pHi, the latter differing from the response in HEPES where amiloride also lowered resting pHi. Similarly 4-acetamido-4′- isothiocyanatostilbene-2,2′-disulfonic acid, sodium salt (0.1 mmol l−1) did not affect resting pHi but slowed the rate of recovery from acidosis, though to a lesser extent than amiloride. Removal of extracellular Cl− also slowed the rate of recovery but greatly increased β by an unknown mechanism; when this was taken into account, H+ extrusion rate was unaffected. These results are consistent with the presence of Na+-(HCO− 3)N co-transport and/or Na+-dependent HCO− 3/Cl− exchange, in addition to Na+/H+ exchange, as mechanisms contributing to “housekeeping” pHi regulation in gill cells in CO2/HCO− 3 media, whereas only Na+/H+ exchange is seen in HEPES. Both Na+-independent Cl−/HCO− 3 exchange and V-type H+-ATPase mechanisms appear to be absent from these cells cultured in isotonic media.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003600050273

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Na/H exchange in cultured epithelial cells from fish gills (1996)

Pärt, P. ; Wood, C. M.

Springer

Journal of comparative physiology 166 (1996), S. 37-45

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ISSN: 1432-136X

Keywords: Fish gills ; Epithelial cells ; Intracellular pH ; Na−H exchange ; Trout, Oncorhynchus

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Using primary cultures of gill pavement cells from freshwater rainbow trout, a method is described for achieving confluent monolayers of the cells on glass coverslips. A continuous record of intracellular pH was obtained by loading the cells with the pH-sensitive flourescent dye 2′,7′-bis(2-carboxyethyl)-5(6)-carboxyfluorescein and mounting the coverslips in the flowthrough cuvette of a spectrofluorimeter. Experiments were performed in HEPES-buffered media nominally free of HCO3. Resting intracellular pH (7.43 at extracellular pH=7.70) was insensitive to the removal of Cl− or the application of 4-acetamido-4′-isothiocyanatostilbene-2,2′-disulfonic acid (0.1 mmol·l−1), but fell by about 0.3 units when Na+ was removed or in the presence of amiloride (0.2 mmol·l−1). Exposure to elevated ammonia (“ammonia prepulse”; 30 mmol·l−1 as NH4Cl for 6–9 min) produced an increase in intracellular pH (to about 8.1) followed by a slow decay, and washout of the pulse caused intracellular pH to fall to about 6.5. Intracellular non-HCO 3 − buffer capacity was about 13.4 slykes. Rapid recovery of intracellular pH from intracellular acidosis induced by ammonia prepulse was inhibited more than 80% in Na+-free conditions or in the presence of amiloride (0.2 mmol·l−1). Neither bafilomycin A1 (3 μmol·l−1) nor Cl removal altered the intracellular pH recovery rate. The K m for Na+ of the intracellular pH recovery mechanism was 8.3 mmol·l−1, and the rate constant at V max was 0.008·s−1 (equivalent to 5.60 mmol H+·l−1 cell water·min−1), which was achieved at external Na+ levels from 25 to 140 mmol·l−1. We conclude that intracellular pH in cultured gill pavement cells in HEPES-buffered, HCO 3 − -free media, both at rest and during acidosis, is regulated by a Na+/H+ antiport and not by anion-dependent mechanisms or a vacuolar H+-ATPase.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00264637

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