HCl causes less intracellular acidification in Necturus gastric mucosa surface epithelial cells than other acids

Luminal acid causes intracellular acidification in the gastric epithelium, but the mechanism by which H(+) enters surface cells remains obscure. This study addressed the problem by assessing how different acids affect intracellular pH in gastric surface cells. Isolated Necturus maculosus antral muco...

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Bibliographic Details
Published in:American journal of physiology: Gastrointestinal and liver physiology 2001-09, Vol.281 (3), p.G675-G680
Main Authors: Nylander-Koski, O, Mustonen, H, Vikholm, I, Kiviluoto, T, Kivilaakso, E
Format: Article
Language:English
Subjects:
Acids - chemistry
Acids - metabolism
Acids - pharmacology
Animals
Diffusion
Electric Impedance
Epithelial Cells - drug effects
Epithelial Cells - metabolism
Gastric Mucosa - drug effects
Gastric Mucosa - metabolism
Hydrochloric Acid - metabolism
Hydrochloric Acid - pharmacology
Hydrogen-Ion Concentration - drug effects
In Vitro Techniques
Intracellular Fluid - drug effects
Intracellular Fluid - metabolism
Membrane Potentials - drug effects
Necturus
Nitric Acid - chemistry
Nitric Acid - metabolism
Nitric Acid - pharmacology
Phospholipids - chemistry
Phosphoric Acids - chemistry
Phosphoric Acids - metabolism
Phosphoric Acids - pharmacology
Pressure
Sulfuric Acids - chemistry
Sulfuric Acids - metabolism
Sulfuric Acids - pharmacology
Surface Properties - drug effects
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Summary:Luminal acid causes intracellular acidification in the gastric epithelium, but the mechanism by which H(+) enters surface cells remains obscure. This study addressed the problem by assessing how different acids affect intracellular pH in gastric surface cells. Isolated Necturus maculosus antral mucosa was exposed to HCl, HNO(3), H(2)SO(4), and H(3)PO(4) at pH 2.30. Intracellular pH was measured with microelectrodes. The physicochemical interaction of a synthetic model of gastric phospholipids with the different acids was studied using Langmuir film balance. Exposure to luminal HNO(3), H(2)SO(4), or H(3)PO(4) caused significantly larger intracellular acidification than exposure to HCl. The degree of acidification was not dependent on the valence or nature of the anionic counterion of the acid but significantly correlated with the amount of molecular acid. By Langmuir film balance, subphases acidified with HNO(3), H(2)SO(4), or H(3)PO(4) caused more close packing of phospholipid molecules than those acidified with HCl, possibly allowing hydrogen bonding between head groups to facilitate H(+) movement across the phospholipid membrane. HCl causes significantly less intracellular acidification in gastric epithelium than HNO(3), H(2)SO(4), or H(3)PO(4). This may be caused by the lower amount of molecular HCl in solution and possible hydrogen bonding between the head groups of phospholipid molecules and the other acids.
ISSN:0193-1857
1522-1547
DOI:10.1152/ajpgi.2001.281.3.g675