DOD
Search
Discussions
Biomedical Jobmarket
News
DOD Alert
Edit DOD
 
ACCOUNT
Login
Register
Forgotten Password?
 
 
Influence of cell number on the characteristics and synchrony of Ca2+ oscillations in clusters of mouse pancreatic islet cells.
 
Diabetes OD > Regeneration of Islets > Stem Cells > Isolated Islet Cells > Functional Capability of Cells > Glucose Stimulation > Journal Article

(Journal Article): Influence of cell number on the characteristics and synchrony of Ca2+ oscillations in clusters of mouse pancreatic islet cells.
 
Jonkers FC, Jonas JC, Gilon P, Henquin JC (Unite d'Endocrinologie et Metabolisme, University of Louvain School of Medicine, UCL 55.30, B-1200 Brussels, Belgium.)
 
IN: J Physiol 1999; 520(3):839-849
Impact Factor(s) of J Physiol: 4.346 (2004), 4.352 (2003), 4.476 (2001)

Fulltext:    HTML  PDF

ABSTRACT: 1. The cytoplasmic Ca2+ concentration ([Ca2+]i) was measured in single cells and cell clusters of different sizes prepared from mouse pancreatic islets. 2. During stimulation with 15 mM glucose, 20 % of isolated cells were inert, whereas 80 % showed [Ca2+]i oscillations of variable amplitude, duration and frequency. Spectral analysis identified a major frequency of 0.14 min-1 and a less prominent one of 0.27 min-1. 3. In contrast, practically all clusters (2-50 cells) responded to glucose, and no inert cells were identified within the clusters. As compared to single cells, mean [Ca2+]i was more elevated, [Ca2+]i oscillations were more regular and their major frequency was slightly higher (but reached a plateau at approximately 0.25 min-1). In some cells and clusters, faster oscillations occurred on top of the slow ones, between them or randomly. 4. Image analysis revealed that the regular [Ca2+]i oscillations were well synchronized between all cells of the clusters. Even when the Ca2+ response was irregular, slow and fast [Ca2+]i oscillations induced by glucose were also synchronous in all cells. 5. In contrast, [Ca2+]i oscillations resulting from mobilization of intracellular Ca2+ by acetylcholine were restricted to certain cells only and were not synchronized. 6. Heptanol and 18alpha-glycyrrhetinic acid, two agents widely used to block gap junctions, altered glucose-induced Ca2+ oscillations, but control experiments showed that they also exerted effects other than a selective uncoupling of the cells. 7. The results support theoretical models predicting an increased regularity of glucose-dependent oscillatory events in clusters as compared to isolated islet cells, but contradict the proposal that the frequency of the oscillations increases with the number of coupled cells. Islet cell clusters function better as electrical than biochemical syncytia. This may explain the co-ordination of [Ca2+]i oscillations driven by depolarization-dependent Ca2+ influx during glucose stimulation.

TYPE OF PUBLICATION: Original article

Articles citing this article:



 
Respond on this Journal Article!
Hint: Your Response should directly apply to Influence of cell number on the characteristics and synchrony of Ca2+ oscillations in clusters of mouse pancreatic islet cells.. Please check, if this context applies best to your contribution. Otherwise click HERE to change to the appropriate subject area. The actual subject area is Glucose Stimulation.