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Regulation of net bicarbonate transport in rabbit cortical collecting tubule by peritubular pH carbon dioxide tension and bicarbonate concentration.

机译：肾小管周围pH值二氧化碳张力和碳酸氢根浓度对兔子皮质收集管中净碳酸氢根转运的调节。

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The effects of changes in peritubular pH, carbon dioxide tension (PCO2), and HCO3- concentration on net HCO3- transport was examined in in vitro perfused cortical collecting tubules (CCTs) from unpretreated New Zealand white rabbits. Lowering peritubular HCO3- concentration and pH by reciprocal replacement of HCO3- with Cl-, significantly stimulated net HCO3- absorption. Lowering peritubular HCO3- concentration and pH, by substitution of HCO3- with gluconate, while keeping Cl- concentration constant, also stimulated net HCO3- absorption. Raising peritubular HCO3- concentration and pH, by reciprocal replacement of Cl- with HCO3-, inhibited net HCO3- absorption (or stimulated net HCO3- secretion). When the tubule was cooled, raising peritubular HCO3- concentration had no effect on net HCO3- transport, suggesting these results are not due to the passive flux of HCO3- down its concentration gradient. The effect of changes in ambient PCO2 on net HCO3- transport were also studied. Increasing the ambient PCO2 from 40 mmHg to either 80 or 120 mmHg, allowing pH to fall, had no effect on net HCO3- transport. Similarly, lowering ambient PCO2 to 14 mmHg had no effect on net HCO3- transport. Simultaneously increasing peritubular HCO3- concentration and PCO2, without accompanying changes in peritubular pH, i.e., isohydric changes, stimulated net HCO3- secretion to the same degree as nonisohydric increases in peritubular HCO3- concentration. Likewise, isohydric lowering of peritubular HCO3- concentration and PCO2 stimulated net HCO3- absorption. We conclude that: acute changes in peritubular HCO3- concentration regulate acidification in the CCT and these effects are mediated by a transcellular process; acute changes in ambient PCO2 within the physiologic range have no effect on HCO3- transport in the in vitro perfused CCT; and acute in vitro regulation of CCT acidification is independent of peritubular pH.

机译：在未经预处理的新西兰白兔的体外灌注皮质收集管（CCT）中，检查了管周pH，二氧化碳张力（PCO2）和HCO3-浓度变化对净HCO3-转运的影响。通过用Cl-相互替换HCO3-降低肾小管周围HCO3-的浓度和pH值，可显着刺激净HCO3-的吸收。通过用葡萄糖酸替代HCO3-降低肾小管周围HCO3-的浓度和pH，同时保持Cl-浓度恒定，也刺激了HCO3-的净吸收。通过用HCO3-相互替换Cl-来提高肾小管HCO3-的浓度和pH值，可抑制HCO3-的净吸收（或刺激HCO3-的净分泌）。当肾小管冷却后，升高肾小管周围HCO 3-的浓度对净HCO 3-的运输没有影响，这表明这些结果不是由于HCO 3-浓度梯度下降而产生的被动通量。还研究了环境PCO2的变化对净HCO3-迁移的影响。将环境PCO2从40 mmHg增加到80或120 mmHg，使pH下降，对净HCO3-的传输没有影响。同样，将环境PCO2降低到14 mmHg对净HCO3-的传输没有影响。同时增加肾小管周围HCO3-的浓度和PCO2，而不伴随肾小管周围pH的变化（即等渗性变化），刺激净HCO3-分泌达到与非等渗肾小管周围HCO3-浓度增加相同的程度。同样，肾小管周围HCO 3-浓度和PCO 2的等渗降低刺激了HCO 3-的净吸收。我们得出的结论是：肾小管周围HCO3-浓度的急性变化调节了CCT中的酸化作用，这些作用是由跨细胞过程介导的。在体外灌注的CCT中，生理范围内环境PCO2的急性变化对HCO3-的转运没有影响； CCT酸化的急性体外调节与肾小管周围pH无关。

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期刊名称 The Journal of Clinical Investigation
作者
M D Breyer; J P Kokko; H R Jacobson;
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年(卷),期 1986(77),5
年度 1986
页码 1650–1660
总页数 11
原文格式 PDF
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中图分类医学史 ;
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7. Regulation of net bicarbonate transport in rabbit cortical collecting tubule by peritubular pH, carbon dioxide tension, and bicarbonate concentration. [O] . Breyer, M D, Kokko, J P, Jacobson, H R 1986

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Regulation of net bicarbonate transport in rabbit cortical collecting tubule by peritubular pH carbon dioxide tension and bicarbonate concentration.

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