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Liver parenchyma heterogeneity in the response to extracellular NAD +
Author(s) -
Gimenes Daniele,
Constantin Jorgete,
Comar Jurandir Fernando,
KelmerBracht Ana Maria,
BroettoBiazon Ana Carla,
Bracht Adelar
Publication year - 2006
Publication title -
cell biochemistry and function
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.933
H-Index - 61
eISSN - 1099-0844
pISSN - 0263-6484
DOI - 10.1002/cbf.1228
Subject(s) - nad+ kinase , extracellular , glycogenolysis , retrograde perfusion , perfusion , stimulation , medicine , endocrinology , hepatic portal vein , chemistry , biology , biochemistry , portal vein , metabolism , enzyme
The perfused rat liver responds intensely to NAD + infusion (20–100 µ M ). Increases in portal perfusion pressure and glycogenolysis and transient inhibition of oxygen consumption are some of the effects that were observed. The aim of the present work was to investigate the distribution of the response to extracellular NAD + along the hepatic acinus. The bivascularly perfused rat liver was used. Various combinations of perfusion directions (antegrade and retrograde) and infusion routes (portal vein, hepatic vein and hepatic artery) were used in order to supply NAD + to different regions of the liver parenchyma, also taking advantage of the fact that its extracellular transformation generates steep concentration gradients. Oxygen uptake was stimulated by NAD + in retrograde perfusion (irrespective of the infusion route) and transiently inhibited in antegrade perfusion. This indicates that the signal causing oxygen uptake inhibition is generated in the periportal area. The signal responsible for oxygen uptake stimulation is homogenously distributed. Stimulation of glucose release was more intense when NAD + was infused into the portal vein or into the hepatic artery, indicating that stimulation of glycogenolysis predominates in the periportal area. The increases in perfusion pressure were more pronounced when the periportal area was supplied with NAD + suggesting that the vasoconstrictive elements responding to NAD + predominate in this region. The response to extracellular NAD + is thus unequally distributed in the liver. As a paracrine agent, NAD + is likely to be released locally. It can be concluded that its effects will be different depending on the area where it is released. Copyright © 2005 John Wiley & Sons, Ltd.

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