Insulin-like growth factor-I increases astrocyte intercellular gap junctional communication and connexin43 expression in vitro

Connexin43 (cx43) forms gap junctions in astrocytes, and these gap junctions mediate intercellular communication by providing transport of low‐molecular‐weight metabolites and ions. We have recently shown that systemic growth hormone increases cx43 in the brain. One possibility was that local brain...

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Bibliographic Details
Published in:Journal of neuroscience research 2003-10, Vol.74 (1), p.12-22
Main Authors: Åberg, N. David, Blomstrand, Fredrik, Åberg, Maria A.I., Björklund, Ulrika, Carlsson, Björn, Carlsson-Skwirut, Christine, Bang, Peter, Rönnbäck, Lars, Eriksson, Peter S.
Format: Article
Language:English
Subjects:
Animals
astrocyte
Astrocytes
Astrocytes - drug effects
Astrocytes - metabolism
biosynthesis
Cell Communication
Cell Communication - drug effects
Cell Communication - physiology
Cells
Cells, Cultured
Connexin 43
Connexin 43 - biosynthesis
Connexin 43 - genetics
connexin43
Cultured
drug effects
Endocrinology and Diabetes
Endokrinologi och diabetes
gap junction
Gene Expression Regulation
Gene Expression Regulation - drug effects
Gene Expression Regulation - physiology
genetics
growth hormone
Humans
insulin-like growth factor binding proteins
Insulin-Like Growth Factor I
Insulin-Like Growth Factor I - pharmacology
Insulin-Like Growth Factor I - physiology
intercellular communication
Intercellular Junctions
Intercellular Junctions - drug effects
Intercellular Junctions - metabolism
Intercellular Signaling Peptides and Proteins
Intercellular Signaling Peptides and Proteins - pharmacology
Intercellular Signaling Peptides and Proteins - physiology
Medicin och hälsovetenskap
metabolism
Neurologi
Neurology
pharmacology
physiology
primary culture
proliferation
rat
Rats
Rats, Sprague-Dawley
Sprague-Dawley
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Summary:Connexin43 (cx43) forms gap junctions in astrocytes, and these gap junctions mediate intercellular communication by providing transport of low‐molecular‐weight metabolites and ions. We have recently shown that systemic growth hormone increases cx43 in the brain. One possibility was that local brain insulin‐like growth factor‐I (IGF‐I) could mediate the effect by acting directly on astrocytes. In the present study, we examined the effects of direct application of recombinant human IGF‐I (rhIGF‐I) on astrocytes in primary culture concerning cx43 protein expression and gap junctional communication (GJC). After 24 hr of stimulation with rhIGF‐I under serum‐free conditions, the GJC and cx43 protein were analyzed. Administration of 30 ng/ml rhIGF‐I increased the GJC and the abundance of cx43 protein. Cell proliferation of the astrocytes was not significantly increased by rhIGF‐I at this concentration. However, a higher concentration of rhIGF‐I (150 ng/ml) had no effect on GJC/cx43 but increased cell proliferation. Because of the important modulatory role of IGF binding proteins (IGFBPs) on IGF‐I action, we analyzed IGFBPs in conditioned media. In cultures with a low abundance of IGFBPs (especially IGFBP‐2), the GJC response to 30 ng/ml rhIGF‐I was 81%, compared with the average of 25%. Finally, as a control, insulin was given in equimolar concentrations. However, GJC was not affected, which suggests that rhIGF‐I acted via IGF‐I receptors. In summary, the data show that rhIGF‐I may increase GJC/cx43, whereas a higher concentration of rhIGF‐I—at which stimulation of proliferation occurred—did not affect GJC/cx43. Furthermore, IGFBP‐2 appeared to modulate the action of rhIGF‐I on GJC in astrocytes by a paracrine mechanism. © 2003 Wiley‐Liss, Inc.
ISSN:0360-4012
1097-4547
DOI:10.1002/jnr.10734