M.T. Strosser scite author profile

The ability of astroglial cells to exhibit oxytocin (OT)-binding sites has been investigated in embryonic hypothalamic and hippocampic astroglial cell cultures. The differential characteristics of binding of OT and [Arg8]vasopressin (AVP) agonists and antagonists to the OT-binding sites using the highly selective iodinated OT antagonist d(CH2)5-[Tyr(Me)2,Thr4,Tyr-NH2(9)]OVT ([125I]OTA) have been evaluated using intact cells maintained for 12 days in culture. The specific binding displayed features of reversibility. Computer analysis of the saturation studies using the LIGAND program indicated that, at 4 degrees C, the antagonist binds to a homogeneous population of sites with a Kd value of 0.02 nM and a low binding-site density of around 2 fmol/dish for hypothalamic cells and 6 fmol/dish for hippocampic cells. For hypothalamic cells, competition curves using unlabelled OT, AVP or V2 AVP agonist were characterized by a pseudo-Hill coefficient below unity (0.7), indicating possible heterogeneity among the binding sites. On the other hand, the dose-inhibition curves resulting from competition studies with hippocampic cells had a pseudo-Hill coefficient close to unity, except for OT. Computer analysis (LIGAND) indicated that the OT dose-inhibition curve was significantly better fitted to a two-site model, and this can be explained by two apparent forms of the receptor having high and low affinities for the displacing drug. The relative potencies of the peptides tested for binding to the high-affinity site were: AVP greater than OT greater than V1 AVP antagonist ([d(CH2)5-Tyr(Me)2]AVP) = V2 AVP agonist greater than AVP-Sar ([d(CH2)5-Sar7,Arg8]VP) in hypothalamic cultures, and OT = AVP greater than V1 AVP antagonist greater than V2 AVP agonist in hippocampic cultures. In addition, autoradiography allowed visualization of OT-binding sites, which are located on both soma and processes of astrocyte-like type of cells. In conclusion, these data provide evidence that glial cell cultures contain specific OT-binding sites which display pharmacological characteristics different from those already reported in neuronal cultures and in the adult rat brain.

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Increase of intracellular calcium induced by oxytocin in hypothalamic cultured astrocytes

Guenot

Mouginot

Strosser

1994

Glia

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A recent study demonstrated oxytocin (OT) receptors on hypothalamic cultured astrocytes (Di Scala-Guenot and Strosser, 1992). The attempt in the present paper was to determine a possible intracellular calcium mobilization induced by OT receptor activation in these cells. Using the microspectrofluorimetric technique with fura-2, as calcium indicator, brief applications of OT on single astrocytes induced a transient and reversible dose-dependent increase of intracellular calcium concentration ([Ca2+]i) in most of the cells tested. In a few cells, OT application triggered intracellular calcium oscillations. Repetitive applications of OT generally produced a decreasing calcium signal, suggesting a desensitization of the receptor. OT-induced calcium release was prevented by a prior or simultaneous application of an OT antagonist. The origin of the calcium mobilization was assessed during conditions where no extracellular calcium was available. Neither removal of extracellular calcium nor addition of a calcium channel blocker, cadmium 100 microM, in the bathing solution, did affect the calcium response to OT, demonstrating that release of intracellular calcium is solely involved in the OT-induced [Ca2+]i increase. The OT-induced calcium mobilization was abolished after thapsigargin application (100 nM). This indicates that the calcium response to OT application was principally associated with activation of the IP3-sensitive calcium stores. Taken together these results demonstrate that OT receptors previously detected on hypothalamic cultured astrocytes are functional receptors which transduction pathways involve calcium mobilization from IP3-sensitive stores.

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M.T. Strosser

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Oxytocin receptors on cultured astroglial cells. Kinetic and pharmacological characterization of oxytocin-binding sites on intact hypothalamic and hippocampic cells from foetal rat brain

Increase of intracellular calcium induced by oxytocin in hypothalamic cultured astrocytes

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