Department of Physiology, Radboud University Nijmegen Medical Centre, The Netherlands.
Am J Physiol Renal Physiol. 2012 Sep 15;303(6):F886-92. doi: 10.1152/ajprenal.00114.2012. Epub 2012 Jul 3.
Studying the molecular regulation of the thiazide-sensitive Na(+)-Cl(-) cotransporter (NCC) is important for understanding how the kidney contributes to blood pressure regulation. Until now, a native mammalian cell model to investigate this transporter remained unknown. Our aim here is to establish, for the first time, a primary distal convoluted tubule (DCT) cell culture exhibiting transcellular thiazide-sensitive Na(+) transport. Because parvalbumin (PV) is primarily expressed in the DCT, where it colocalizes with NCC, kidneys from mice expressing enhanced green-fluorescent protein (eGFP) under the PV gene promoter (PV-eGFP-mice) were employed. The Complex Object Parametric Analyzer and Sorter (COPAS) was used to sort fluorescent PV-positive tubules from these kidneys, which were then seeded onto permeable supports. After 6 days, DCT cell monolayers developed transepithelial resistance values of 630 ± 33 Ω·cm(2). The monolayers also established opposing transcellular concentration gradients of Na(+) and K(+). Radioactive (22)Na(+) flux experiments showed a net apical-to-basolateral thiazide-sensitive Na(+) transport across the monolayers. Both hypotonic low-chloride medium and 1 μM angiotensin II increased this (22)Na(+) transport significantly by four times, which could be totally blocked by 100 μM hydrochlorothiazide. Angiotensin II-stimulated (22)Na(+) transport was also inhibited by 1 μM losartan. Furthermore, NCC present in the DCT monolayers was detected by immunoblot and immunocytochemistry studies. In conclusion, a murine primary DCT culture was established which expresses functional thiazide-sensitive Na(+)-Cl(-) transport.
研究噻嗪类敏感的钠-氯共转运蛋白(NCC)的分子调控对于理解肾脏如何参与血压调节非常重要。到目前为止,还没有一种用于研究该转运体的天然哺乳动物细胞模型。我们的目标是首次建立一个具有跨细胞噻嗪类敏感的 Na+转运功能的原代远曲小管(DCT)细胞培养物。由于副甲状腺球蛋白(PV)主要在 DCT 中表达,并且与 NCC 共定位,因此使用表达增强型绿色荧光蛋白(eGFP)的 PV 基因启动子(PV-eGFP-小鼠)的肾脏。采用复杂物体参数分析器和分类器(COPAS)从这些肾脏中分离出荧光阳性的 PV 阳性肾小管,然后将其接种到渗透性支持物上。6 天后,DCT 细胞单层的跨上皮电阻值达到 630±33 Ω·cm2。这些单层还建立了相反的跨细胞 Na+和 K+浓度梯度。放射性(22)Na+通量实验显示,穿过这些单层的有噻嗪类敏感的、由顶端向基底的 Na+转运。低渗低氯介质和 1 μM 血管紧张素 II 均可显著增加这种(22)Na+转运,使其增加四倍,而 100 μM 氢氯噻嗪可完全阻断这种转运。1 μM 洛沙坦也可抑制血管紧张素 II 刺激的(22)Na+转运。此外,免疫印迹和免疫细胞化学研究检测到 DCT 单层中存在的 NCC。总之,建立了表达功能性噻嗪类敏感的 Na+-Cl-转运的小鼠原代 DCT 培养物。
