乳酸供应作为肝小叶内细胞内pH分布的一个决定因素。
Lactate supply as a determinant of the distribution of intracellular pH within the hepatic lobule.
作者信息
Burns S P, Murphy H C, Iles R A, Cohen R D
机构信息
Department of Diabetes and Metabolic Medicine, St Bartholomew's and The Royal London School of Medicine and Dentistry, Queen Mary and Westfield College, University of London, Whitechapel Road, London E1 1BB, UK.
出版信息
Biochem J. 2001 Sep 15;358(Pt 3):569-71. doi: 10.1042/0264-6021:3580569.
When isolated livers from starved rats are perfused with lactate at constant perfusate pH and P(co(2)), there is a marked gradient of cell pH (pH(i)) along the length of the lobular radius, with periportal cells being substantially more alkaline than perivenous cells. In the present studies, the perivenous 21% of the lobular volume was destroyed by retrograde digitonin perfusion, and antegrade perfusion restored. pH(i) was determined by (31)P-NMR. The remaining periportal cells, the site of gluconeogenesis from lactate, had a substantially higher mean pH(i) (7.42) than did the intact liver (7.23). When lactate was removed from the perfusate, mean pH(i) decreased to 7.25. The corresponding concentration of cell bicarbonate fell with a half-time of approximately 5 min. When lactate was re-introduced mean pH(i) rose to 7.34. We conclude that a major contributor to periportal alkalinity under these conditions is proton consumption during gluconeogenesis from lactate ions.
当用乳酸灌注饥饿大鼠的离体肝脏,且灌注液的pH值和P(CO₂)保持恒定时,沿小叶半径方向细胞内pH(pH(i))存在明显梯度,门周细胞的碱性明显高于中央静脉周围细胞。在本研究中,通过逆行洋地黄皂苷灌注破坏了小叶体积的21%的中央静脉周围区域,然后恢复顺行灌注。通过³¹P-NMR测定pH(i)。剩余的门周细胞是乳酸糖异生的部位,其平均pH(i)(7.42)显著高于完整肝脏(7.23)。当从灌注液中去除乳酸时,平均pH(i)降至7.25。细胞内碳酸氢盐的相应浓度以约5分钟的半衰期下降。当重新引入乳酸时,平均pH(i)升至7.34。我们得出结论,在这些条件下,门周碱性的一个主要因素是乳酸离子糖异生过程中质子的消耗。
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