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A microperfusion investigation of bicarbonate secretion by the rat submaxillary gland (1970)

Young, J. A. ; Martin, C. J. ; Asz, M. ; [et al.]

Springer

Pflügers Archiv 319 (1970), S. 185-199

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ISSN: 1432-2013

Keywords: Submaxillary Gland ; Bicarbonate Secretion ; Microperfusion ; Acetazolamide ; Carbachol ; Submaxillardrüse ; Bicarbonatsekretion ; Mikroperfusion ; Acetazolamid ; Carbachol

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Bicarbonate transport in the rat submaxillary main duct has been studied by microperfusion. Bicarbonate was concentrated in the duct lumen against an electrochemical gradient and the equilibrium concentration was estimated to be 56.5 mEq/l±3.1 (S.E.M.,n=11). The secretory mechanism could not be inhibited by 6 mMolar cyanide although such concentrations caused marked inhibition of both net sodium efflux and net potassium influx. Bicarbonate secretion in the main duct was not inhibited by acetazolamide whether applied from the duct lumen or given intravenously. Similarly, the drug was without effect on bicarbonate excretion by the intact gland even when maximum excretory rates had been induced with carbachol. It was concluded that catalytic hydration of carbon dioxide to carbonic acid was not a rate-limiting step in the bicarbonate secretory process. The data did not permit a distinction to be made between a bicarbonate secretory processper se and a process of either H+ reabsorption or OH− secretion. The parasympathomimetic agent, carbachol, when given parenterally was found to increase sharply the net influx of bicarbonate into the microperfused main duct as well as to reduce net sodium efflux and net potassium influx. Previously it had been postulated that final saliva was formed in two stages. First a plasma-like primary secretion was formed at a rate depending on the degree of stimulation, and second, the primary secretion was modified in the gland duct system by reabsorptive and secretory processes whose transport rates were presumed to be independent of the degree of stimulus. It now becomes necessary to postulate that stimulation can act on electrolyte transport at both primary and secondary levels; at present, however, no data are available to show whether appreciable net water influx can ever occur at the secondary level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00586449

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Amicroperfusion investigation of the effects of a sympathomimetic and a parasympathomimetic drug on water and electrolyte fluxes in the main duct of the rat submaxillary gland (1971)

Martin, C. J. ; Young, J. A.

Springer

Pflügers Archiv 327 (1971), S. 303-323

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ISSN: 1432-2013

Keywords: Parasympathomimetics ; Sympathomimetics ; Electrolyte Transport ; Submaxillary Gland ; Microperfusion ; Parasympathicomimetica ; Sympathicomimetica ; Elektrolyttransport ; Glandula submaxillaris ; Mikroperfusion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Previous studies on the intact rat submaxillary gland led to the hypothesis that sympathomimetic and parasympathomimetic drugs, in addition to stimulating glandular production of primary saliva, also stimulated secondary secretion of K and HCO3 by the striated and excretory ducts. It was postulated that parasympathomimetics were more effective stimulants than sympathomimetics atthe primary level but atthe secondary level the two types of drug had actions that were of approximately the same magnitude and that, when administered together, the effects of the drugs were additive. To test this hypothesis the effects of a parasympathomimetic drug (carbachol) and a sympathomimetic drug (isoproterenol) on nett electrolyte transport and transepithelial electrical potential differences were studied in the perfused main duct of the rat submaxillary gland. It was found: 1. That both carbachol and isoproterenol stimulated ductal secretion of bicarbonate irrespective of the electrolyte composition of the perfusion fluid. 2. Both drugs stimulated a parallel nett secretion of potassium when the perfusion fluid contained a low concentration of NaCl. 3. When the lumen contained a high concentration of NaCl, ductal Na reabsorption and K secretion were reduced and HCO3 secretion was accomplished partly in exchange for chloride and partly in parallel with K secretion. 4. In supra-maximal doses the effects of both drugs were of the same order of magnitude and when administered together the effect was always greater than that which could be produced by the same doses of either drug alone. It is concluded that, during pharmacological stimulation of the submaxillary gland, stimulation of ductal secretion of K and HCO3 did indeed occur and that such an occurrence could account for anomalies previously observed in the electrolyte excretory patterns of the intact gland undergoing parasympathomimetic and sympathomimetic stimulation. Since the electrolyte excretory patterns found in saliva collected after nerve and pharmacological stimulation are quite similar it was felt that stimulation of ductal K and HCO3 secretion probably also occurred in this and other salivary glands during nerve stimulation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00588450

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