Cause of Intracellular ATP dependency on Zn2++ Blockade of KATP Channels in Pancreatic Beta Cells.
- Author:
Young Ho AHN
;
Dae Kyu SONG
- Publication Type:Original Article
- Keywords:
KATP channel;
Pancreatic beta cell;
Zinc blockade;
Intracellular ATP
- MeSH:
Adenosine Triphosphate*;
Baths;
Glucose;
Insulin-Secreting Cells*;
KATP Channels*;
Metabolism
- From:Korean Journal of Aerospace and Environmental Medicine
1999;9(1):77-82
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
In order to clarify the cause of intracellular ATP dependency on Zn2+ blockade of KATP channels in pancreatic beta cells, we investigated the KATP channel activity during external Zn2+ application using voltage clamp technique. Cultured beta cells were used for patch-clamp experiment. When 3 mM glucose was applied in bath, KATP channel activity was increased transiently by externally applied Zn2+ in the cell-attached mode and was recoverable. The KATP channel activity was, however, consistently increased by Zn2+ application during the 0 mM glucose in bath. Inside-out mode, internally applied Zn2+ elicited no response on the KATP channels. Another divalent cation, Mn2+, didn't have any effect on the KATP channels. Therefore, This effect, so-called external glucose-dependency on Zn2+ blockade of the KATP channels, might be due to intracellular Zn2+ metabolism which induces ATP consumption. This appears to be a mechanism that the Zn2+ blockade of the KATP channels in the pancreatic beta cells depends on the intracellular ATP concentration.
