Ventilatory compensation of the alkaline tide during digestion in the snake Boa constrictor


Autoria(s): Andrade, D. V.; De Toledo, L. F.; Abe, Augusto Shinya; Wang, T.
Contribuinte(s)

Universidade Estadual Paulista (UNESP)

Data(s)

26/02/2014

20/05/2014

26/02/2014

20/05/2014

01/03/2004

Resumo

The increased metabolic rate during digestion is associated with changes in arterial acid-base parameters that are caused by gastric acid secretion (the 'alkaline tide'). Net transfer of HCl to the stomach lumen causes an increase in plasma HCO3- levels, but arterial pH does not change because of a ventilatory compensation that counters the metabolic alkalosis. It seems, therefore, that ventilation is controlled to preserve pH and not P-CO2, during the postprandial period. To investigate this possibility, we determined arterial acid-base parameters and the metabolic response to digestion in the snake Boa constrictor, where gastric acid secretion was inhibited pharmacologically by oral administration of omeprazole. The increase in oxygen consumption of omeprazole-treated snakes after ingestion of 30% of their own body mass was quantitatively similar to the response in untreated snakes, although the peak of the metabolic response occurred later (36 h versus 24 h). Untreated control animals exhibited a large increase in arterial plasma HCO3- concentration of approximately 12 mmol 1(-1), but arterial pH only increased by 0.12 pH units because of a simultaneous increase in arterial P-CO2 by about 10 mmHg. Omeprazole virtually abolished the changes in arterial pH and plasma HCO3- concentration during digestion and there was no increase in arterial P-CO2. The increased arterial P-CO2 during digestion is not caused, therefore, by the increased metabolism during digestion or a lower ventilatory responsiveness to ventilatory stimuli during a presumably relaxed state in digestion. Furthermore, the constant arterial P-CO2, in the absence of an alkaline tide, of omeprazole-treated snakes strongly suggests that pH rather than P-CO2 normally affects chemoreceptor activity and ventilatory drive.

Formato

1379-1385

Identificador

http://dx.doi.org/10.1242/jeb.00896

Journal of Experimental Biology. Cambridge: Company of Biologists Ltd, v. 207, n. 8, p. 1379-1385, 2004.

0022-0949

http://hdl.handle.net/11449/20969

10.1242/jeb.00896

WOS:000221066600017

Idioma(s)

eng

Publicador

Company of Biologists Ltd

Relação

Journal of Experimental Biology

Direitos

closedAccess

Palavras-Chave #reptile #snake #Boa constrictor #feeding #postprandial period #acid-base balance #gastric acid secretion #alkaline tide #omeprazole #ventilation #ventilatory control
Tipo

info:eu-repo/semantics/article