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  • Title: Effects of prolactin on ionic membrane conductances in the human malignant astrocytoma cell line U87-MG.
    Author: Ducret T, Vacher AM, Vacher P.
    Journal: J Neurophysiol; 2004 Mar; 91(3):1203-16. PubMed ID: 14586031.
    Abstract:
    Prolactin (PRL) is involved in numerous biological processes in peripheral tissues and the brain. Although numerous studies have been conducted to elucidate the signal transduction pathways associated with the PRL receptor, very few have examined the role of ion conductances in PRL actions. We used the patch-clamp technique in "whole cell" configuration and microspectrofluorimetry to investigate the effects of PRL on membrane ion conductances in the U87-MG human malignant astrocytoma cell line, which naturally expresses the PRL receptor. We found that a physiological concentration (4 nM) of PRL exerted a biphasic action on membrane conductances. First, PRL activated a Ca(2+)-dependent K(+) current that was sensitive to CTX and TEA. This current depended on PRL-induced Ca(2+) mobilization, through a JAK2-dependent pathway from a thapsigargin- and 2-APB-sensitive Ca(2+) pool. Second, PRL also activated an inwardly directed current, mainly due to the stimulation of calcium influx via nickel- and 2-APB-sensitive calcium channels. Both phases resulted in membrane hyperpolarizations, mainly through the activation of Ca(2+)-dependent K(+) channels. As shown by combined experiments (electrophysiology and microspectrofluorimetry), the PRL-induced Ca(2+) influx increased with cell membrane hyperpolarization and conversely decreased with cell membrane depolarization. Thus PRL-induced membrane hyperpolarizations facilitated Ca(2+) influx through voltage-independent Ca(2+) channels. Finally, PRL also activated a DIDS-sensitive Cl(-) current, which may participate in the PRL-induced hyperpolarization. These PRL-induced conductance activations are probably related to the PRL proliferative effect we have already described in U87-MG cells.
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