Szpilbarg N, Castro-Parodi M, Reppetti J, Repetto M, Maskin B, Martinez N, Damiano A E
Laboratorio de Biología de la Reproducción, Instituto de Fisiología y Biofísica Bernardo Houssay (IFIBIO)-CONICET, Facultad de Medicina, Universidad de Buenos Aires, Buenos Aires, Argentina.
Departamento de Ciencias Biológicas, Facultad de Farmacia y Bioquímica, Universidad de Buenos Aires, Buenos Aires, Argentina.
Mol Hum Reprod. 2016 Jan;22(1):46-56. doi: 10.1093/molehr/gav063. Epub 2015 Nov 14.
Are the placental aquaporins (AQPs) involved in the apoptosis of human trophoblast?
The general blocking of placental AQPs with HgCl2 and, in particular, the blocking of AQP3 activity with CuSO4 abrogated the apoptotic events of human trophoblast cells.
Although apoptosis of trophoblast cells is a natural event involved in the normal development of the placenta, it is exacerbated in pathological processes, such as pre-eclampsia, where an abnormal expression and functionality of placental AQPs occur without alterations in the feto-maternal water flux. Furthermore, fluctuations in O2 tension are proposed to be a potent inducer of placental apoptotic changes and, in explants exposed to hypoxia/reoxygenation (H/R), transcellular water transport mediated by AQPs was undetectable. This suggests that AQPs might be involved in processes other than water transport, such as apoptosis.
STUDY DESIGN, SAMPLES/MATERIALS, METHODS: Explants from normal term placentas were maintained in culture under conditions of normoxia, hypoxia and H/R. Cell viability was determined by assessing 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide incorporation. For the general or specific inhibition of AQPs, 0.3 mM HgCl2, 5 mM CuSO4, 0.3 mM tetraethylammonium chloride (TEA) or 0.5 mM phloretin were added to the culture medium before explants were exposed to each treatment. Oxidative stress parameters and apoptotic indexes were evaluated in the presence or absence of AQPs blockers. AQP3 expression was confirmed by western blot and immunohistochemistry.
First, we observed that in H/R treatments cell viability decreased by 20.16 ± 5.73% compared with those explants cultured in normoxia (P = 0.009; n = 7). Hypoxia did not modify cell viability significantly. Both hypoxia and H/R conditions induced oxidative stress. Spontaneous chemiluminescence and thiobarbituric acid reactive substance levels were significantly increased in explants exposed to hypoxia (n = 6 per group, P = 0.0316 and P = 0.0009, respectively) and H/R conditions (n = 6 per group, P = 0.0281 and P = 0.0001, respectively) compared with those cultured in normoxia. Regarding apoptosis, H/R was a more potent inducer of trophoblast apoptosis than hypoxia alone. Bax expression and the number of apoptotic nuclei were significantly higher in explants cultured in H/R compared with normoxia and hypoxia conditions (n = 12, P = 0.0135 and P = 0.001, respectively). DNA fragmentation was only observed in H/R and, compared with normoxia and hypoxia, the activity of caspase-3 was highest in explants cultured in H/R (n = 12, P = 0.0001). In explants exposed to H/R, steric blocking of AQP activity with HgCl2 showed that DNA degradation was undetectable (n = 12, P = 0.001). Bax expression and caspase-3 activity were drastically reduced (n = 12, P = 0.0146 and P = 0.0001, respectively) compared with explants cultured in H/R but not treated with HgCl2. Similar results were observed in explants exposed to H/R when we blocked AQP3 activity with CuSO4. DNA degradation was undetectable and the number of apoptotic nuclei and caspase-3 activity were significantly decreased compared with explants cultured in H/R but not treated with CuSO4 (n = 12, P = 0.001 and P = 0.0001, respectively). However, TEA and phloretin treatments, to block AQP1/4 or AQP9, respectively, failed in abrogate apoptosis. In addition, we confirmed the expression and localization of AQP3 in explants exposed to H/R.
LIMITATIONS, REASONS FOR CAUTION: Our studies are limited by the number of experimental conditions tested, which do not fully capture the variability in oxygen levels, duration of exposure and alternating patterns of oxygen seen in vivo.
Our results suggest that any alteration in placental AQP expression might disturb the equilibrium of the normal apoptotic events and may be an underlying cause in the pathophysiology of placental gestational disorders such as pre-eclampsia. Furthermore, the dysregulation of placental AQPs may be one of the crucial factors in triggering the clinical manifestations of pre-eclampsia.
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This study was supported by UBACyT 20020090200025 and 20020110200207 grants and PIP-CONICET 11220110100561 grant, and the authors have no conflict of interest to declare.
胎盘水通道蛋白(AQPs)是否参与人滋养层细胞的凋亡?
用HgCl₂全面阻断胎盘AQPs,尤其是用CuSO₄阻断AQP3活性,可消除人滋养层细胞的凋亡事件。
尽管滋养层细胞凋亡是胎盘正常发育过程中的自然现象,但在子痫前期等病理过程中会加剧,子痫前期时胎盘AQPs的表达和功能异常,而母胎水通量无改变。此外,氧张力波动被认为是胎盘凋亡变化的有力诱导因素,在暴露于缺氧/复氧(H/R)的外植体中,未检测到由AQPs介导的跨细胞水转运。这表明AQPs可能参与了除水转运之外的其他过程,如凋亡。
研究设计、样本/材料、方法:将足月正常胎盘的外植体在常氧、缺氧和H/R条件下进行培养。通过评估3-(4,5-二甲基噻唑-2-基)-2,5-二苯基溴化四氮唑的掺入来测定细胞活力。为了全面或特异性抑制AQPs,在将外植体暴露于每种处理之前,向培养基中添加0.3 mM HgCl₂、5 mM CuSO₄、0.3 mM四乙铵氯化物(TEA)或0.5 mM根皮素。在有或没有AQPs阻滞剂的情况下评估氧化应激参数和凋亡指数。通过蛋白质印迹法和免疫组织化学法确认AQP3的表达。
首先,我们观察到,与在常氧条件下培养的外植体相比,在H/R处理中细胞活力下降了20.16±5.73%(P = 0.009;n = 7)。缺氧并未显著改变细胞活力。缺氧和H/R条件均诱导氧化应激。与在常氧条件下培养的外植体相比,暴露于缺氧(每组n = 6,P分别为0.0316和0.0009)和H/R条件(每组n = 6,P分别为0.0281和0.0001)的外植体中,自发化学发光和硫代巴比妥酸反应性物质水平显著升高。关于凋亡,H/R比单独缺氧更能有效诱导滋养层细胞凋亡。与常氧和缺氧条件相比,在H/R条件下培养的外植体中,Bax表达和凋亡细胞核数量显著更高(n = 12,P分别为0.0135和0.001)。仅在H/R中观察到DNA片段化,与常氧和缺氧相比,在H/R条件下培养的外植体中caspase-3活性最高(n = 12,P = 0.0001)。在暴露于H/R的外植体中,用HgCl₂进行AQP活性的空间阻断表明未检测到DNA降解(n = 12,P = 0.001)。与未用HgCl₂处理但在H/R条件下培养的外植体相比,Bax表达和caspase-3活性显著降低(n = 12,P分别为0.0146和0.0001)。当我们用CuSO₄阻断AQP3活性时,在暴露于H/R的外植体中观察到了类似结果。与未用CuSO₄处理但在H/R条件下培养的外植体相比,未检测到DNA降解,凋亡细胞核数量和caspase-3活性显著降低(n = 12,P分别为0.001和0.0001)。然而,分别用于阻断AQP1/4或AQP9的TEA和根皮素处理未能消除凋亡。此外,我们确认了AQP3在暴露于H/R的外植体中的表达和定位。
局限性、需谨慎的原因:我们的研究受到所测试实验条件数量的限制,这些条件并未完全涵盖体内氧水平、暴露持续时间和氧交替模式的变异性。
我们的结果表明,胎盘AQP表达的任何改变都可能扰乱正常凋亡事件的平衡,并且可能是子痫前期等胎盘妊娠疾病病理生理学的潜在原因。此外,胎盘AQPs的失调可能是引发子痫前期临床表现的关键因素之一。
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本研究得到了UBACyT 20020090200025和20020110200207基金以及PIP-CONICET 11220110100561基金的支持,作者声明无利益冲突。
