TASK通道在人胎盘和细胞滋养层细胞中的表达。

Xilian Bai, Helen A Lacey, Susan L Greenwood, Philip N Baker, Mark A Turner, Colin P Sibley, Gregor K Fyfe
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引用次数: 14

摘要

目的:多核合胞滋养细胞是人胎盘绒毛的运输上皮,在妊娠期间由底层的单核细胞滋养细胞融合分化而形成。与其他上皮细胞类似,K+通道在其发育和分化过程中会影响合体滋养细胞的运输特性。因此,我们研究了双孔结构域K+通道TASK1和2的表达和活性与妊娠和分化的关系,使用了妊娠早期和晚期的绒毛组织以及单核和多核培养阶段的培养细胞滋养细胞。方法:采用实时荧光定量聚合酶链反应(PCR)、免疫荧光和86Rb+ (K)外排法研究TASK通道的表达和功能。结果:妊娠早期TASK2 mRNA表达量高于妊娠中期(10 ~ 13周vs 38 ~ 40周,P < 0.05)。其他K+ α亚基mrna,包括TASK1,保持不变,但BKCa β亚基,如TASK2,在妊娠早期高于妊娠中期(P < 0.001)。免疫荧光显示,TASK2在妊娠早期绒毛的滋养层细胞内定位,但在足月时数量较少且仅限于干绒毛。在培养过程中,TASK2在单核细胞滋养细胞中也显示出细胞内定位,在多核细胞中表达缺失。相比之下,TASK1定位于细胞滋养层细胞膜,独立于细胞核形成。测定多核细胞滋养层细胞86Rb+ (K)外排。TASK1拮抗剂anandamide抑制了基础和pH 8.0刺激的外排(两种情况下n = 5;P < 0.01和P < 0.001)。结论:TASK1和2在胎盘滋养细胞中表达,TASK1的活性可能在调节合胞滋养细胞稳态和/或溶质转运功能中起作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
TASK channel expression in human placenta and cytotrophoblast cells.

Objective: The multinucleate syncytiotrophoblast is the transporting epithelium of the human placental villus, formed throughout pregnancy by fusion and differentiation of underlying mononucleate cytotrophoblast cells. Similar to other epithelia, K+ channels will impact on syncytiotrophoblast transport properties during its development and differentiation. Therefore we investigated expression and activity of the two-pore domain K+ channels TASK1 and 2 in relation to gestation and differentiation, using villous tissue from first and third trimester and cultured cytotrophoblast cells at mononucleate and multinucleate stages of culture.

Methods: Quantitative real-time polymerase chain reaction (PCR), immunofluorescence, and 86Rb+ (K) efflux were used to investigate TASK channel expression and function.

Results: TASK2 mRNA expression was higher in first trimester than term (10 to 13 vs 38 to 40 weeks, P < .05). Other K+ alpha-subunit mRNAs, including TASK1, remained unaltered but the regulatory BKCa beta-subunit, like TASK2, was higher in first trimester than term (P < .001). Immunofluorescence showed that TASK2 had an intracellular localization within the trophoblast of first trimester villi but was less abundant and restricted to stem villi at term. TASK2 also showed intracellular localization in mononucleate cytotrophoblast cells in culture and expression was lost with multinucleation. By contrast, TASK1 was localised, independently of cell nucleation, to cytotrophoblast cell plasma membranes. 86Rb+ (K) efflux was measured from multinucleated cytotrophoblast cells. Both basal and pH 8.0-stimulated efflux was inhibited by the TASK1 antagonist anandamide (n = 5 for both conditions; P < .01 and P < .001, respectively).

Conclusion: TASK1 and 2 are expressed in placental trophoblast cells and TASK1 activity may have a role in regulating syncytiotrophoblast homeostasis and/or solute transport functions.

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