Wouter Vandamme scite author profile

Recently, ATP has gained much interest as an extracellular messenger involved in the communication of calcium signals between cells. The mechanism of ATP release is, however, still a matter of debate. In the present study we investigated the possible contribution of connexin hemichannels or ion channels in the release of ATP in GP8, a rat brain endothelial cell line. Release of ATP was triggered by photoactivation of InsP(3) or by reducing the extracellular calcium concentration. Both trigger protocols induced ATP release significantly above baseline. InsP(3)-triggered ATP release was completely blocked by alpha-glycyrrhetinic acid (alpha-GA), the connexin mimetic peptides gap 26 and 27, and the trivalent ions gadolinium and lanthanum. ATP release triggered by zero calcium was, in addition to these substances, also blocked by flufenamic acid (FFA), niflumic acid, and NPPB. Gap 27 selectively blocked zero calcium-triggered ATP release in connexin-43 transfected HeLa cells, while having no effect in wild-type and connexin-32 transfected cells. Of all the agents used, only alpha-GA, FFA and NPPB significantly reduced gap junctional coupling. In conclusion, InsP(3) and zero calcium-triggered ATP release show major similarities but also some differences in their sensitivity to the agents applied. It is suggested that both stimuli trigger ATP release through the same mechanism, which is connexin-dependent, permeable in both directions, potently blocked by connexin mimetic peptides, and consistent with the opening of connexin hemichannels.

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Connexin Channels, Connexin Mimetic Peptides and ATP Release

Leybaert

Braet

Vandamme

et al. 2003

Cell Communication & Adhesion

133

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Connexin hemichannels, that is, half gap junction channels (not connecting cells), have been implicated in the release of various messengers such as ATP and glutamate. We used connexin mimetic peptides, which are, small peptides mimicking a sequence on the connexin subunit, to investigate hemichannel functioning in endothelial cell lines. Short exposure (30 min) to synthetic peptides mimicking a sequence on the first or second extracellular loop of the connexin subunit strongly supressed ATP release and dye uptake triggered by either intracellular InsP(3) elevation or exposure to zero extracellular calcium, while gap junctional coupling was not affected under these conditions. The effect was dependent on the expression of connexin-43 in the cells. Connexin mimetic peptides thus appear to be interesting tools to distinguish connexin hemichannel from gap junction channel functioning. In addition, they are well suited to further explore the role of connexins in cellular release or uptake processes, to investigate hemichannel gating and to reveal new unknown functions of the large conductance hemichannel pathway between the cell and its environment. Work performed up to now with these peptides should be re-interpreted in terms of these new findings.

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Delayed gastric emptying in dyspeptic chronic hemodialysis patients

Vlem

Schoonjans

Vanholder

et al. 2000

American Journal of Kidney Diseases

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Connexin Channels, Connexin Mimetic Peptides and ATP Release

Leybaert¹,

Braet²,

Vandamme³

et al. 2003

GCAC

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Dyspepsia and gastroparesis in chronic renal failure: the role of Helicobacter pylori

Schoonjans

Van²,

Vandamme³

et al. 2002

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Wouter Vandamme

Pharmacological sensitivity of ATP release triggered by photoliberation of inositol‐1,4,5‐trisphosphate and zero extracellular calcium in brain endothelial cells

Connexin Channels, Connexin Mimetic Peptides and ATP Release

Delayed gastric emptying in dyspeptic chronic hemodialysis patients

Connexin Channels, Connexin Mimetic Peptides and ATP Release

Dyspepsia and gastroparesis in chronic renal failure: the role of Helicobacter pylori

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