Institute of Physiology and Zurich Center for Integrative Human Physiology, University of Zurich, CH-8057 Zurich, Switzerland.
J Biol Chem. 2013 Feb 22;288(8):5518-29. doi: 10.1074/jbc.M112.441782. Epub 2012 Dec 31.
Ammonia secretion by the collecting duct (CD) is critical for acid-base homeostasis and, when defective, causes distal renal tubular acidosis (dRTA). The Rhesus protein RhCG mediates NH(3) transport as evident from cell-free and cellular models as well as from Rhcg-null mice. Here, we investigated in a Rhcg mouse model the metabolic effects of Rhcg haploinsufficiency, the role of Rhcg in basolateral NH(3) transport, and the mechanisms of adaptation to the lack of Rhcg. Both Rhcg(+/+) and Rhcg(+/-) mice were able to handle an acute acid load, whereas Rhcg(-/-) mice developed severe metabolic acidosis with reduced ammonuria and high mortality. However, chronic acid loading revealed that Rhcg(+/-) mice did not fully recover, showing lower blood HCO(3)(-) concentration and more alkaline urine. Microperfusion studies demonstrated that transepithelial NH(3) permeability was reduced by 80 and 40%, respectively, in CDs from Rhcg(-/-) and Rhcg(+/-) mice compared with controls. Basolateral membrane permeability to NH(3) was reduced in CDs from Rhcg(-/-) mice consistent with basolateral Rhcg localization. Rhcg(-/-) responded to acid loading with normal expression of enzymes and transporters involved in proximal tubular ammoniagenesis but reduced abundance of the NKCC2 transporter responsible for medullary accumulation of ammonium. Consequently, tissue ammonium content was decreased. These data demonstrate a role for apical and basolateral Rhcg in transepithelial NH(3) transport and uncover an incomplete dRTA phenotype in Rhcg(+/-) mice. Haploinsufficiency or reduced expression of RhCG may underlie human forms of (in)complete dRTA.
集合管(CD)的氨分泌对酸碱平衡至关重要,当分泌功能缺陷时会导致远端肾小管性酸中毒(dRTA)。恒河猴蛋白 RhCG 通过细胞游离和细胞模型以及 Rhcg 基因敲除小鼠证实介导 NH3 转运。在此,我们在 Rhcg 基因敲除小鼠模型中研究了 Rhcg 单倍不足的代谢影响、Rhcg 在基底外侧 NH3 转运中的作用以及适应缺乏 Rhcg 的机制。Rhcg(+/+)和 Rhcg(+/-)小鼠均能够处理急性酸负荷,而 Rhcg(-/-)小鼠则发展为严重的代谢性酸中毒,表现为氨排泄减少和高死亡率。然而,慢性酸负荷暴露揭示 Rhcg(+/-)小鼠并未完全恢复,表现为血液 HCO3-浓度降低和尿液更偏碱性。微灌流研究表明,与对照组相比,Rhcg(-/-)和 Rhcg(+/-)小鼠的 CD 中跨上皮 NH3 通透性分别降低了 80%和 40%。Rhcg(-/-)小鼠基底外侧膜对 NH3 的通透性降低与基底外侧 Rhcg 定位一致。Rhcg(-/-)小鼠对酸负荷的反应是参与近端肾小管产氨的酶和转运体正常表达,但负责铵在髓质积累的 NKCC2 转运体丰度降低。因此,组织铵含量降低。这些数据表明 Rhcg 在顶侧和基底外侧在跨上皮 NH3 转运中起作用,并揭示 Rhcg(+/-)小鼠不完全 dRTA 表型。RhCG 的单倍不足或表达降低可能是人类(完全)不完全 dRTA 形式的基础。