Malan A, Rodeau J L, Daull F
J Comp Physiol B. 1985;156(2):251-8. doi: 10.1007/BF00695780.
Intracellular pH was determined (DMO method) in European hamsters, in the spontaneously-occurring respiratory acidosis of hibernation, in hypercapnia due to breathing 12% CO2 in air in euthermy in spring, and in euthermicnormocapnic controls. From euthermy to hibernation, the temperature coefficient of pH was lowest in blood plasma and brain, intermediate in striated muscles (thigh muscles and diaphragm), and highest in heart and liver (Fig. 1). Correspondingly, the estimated dissociation ratio of the protein imidazole buffer groups, alpha Im, decreased markedly in plasma and brain, denoting an acid titration, but varied little in liver and heart. Striated muscles were intermediate (Fig. 2). Like in other mammals, intracellular responses to short-term euthermic respiratory acidosis were characterized by a partial metabolic compensation in the brain and a small metabolic acidification in striated muscles. In hibernation, a powerful metabolic compensation took place in liver and heart, nearly restoring alpha Im, but none occurred in brain (Figs. 3 to 5). The existence of an intracellular acidosis in brain and striated muscles during hibernation is in keeping with an inhibitory role of acidosis, whereas the homeostasis of intracellular alpha Im in liver and heart would subserve the eurythermal functioning of metabolic regulations in these organs, like in most organs of ectotherms.
采用二甲基氧乙酸(DMO)法测定了欧洲仓鼠在自然发生的冬眠性呼吸性酸中毒、春季常温下呼吸含12%二氧化碳的空气所致高碳酸血症以及常温常碳酸血症对照组中的细胞内pH值。从常温到冬眠,血浆和脑内pH值的温度系数最低,横纹肌(大腿肌肉和膈肌)居中,心脏和肝脏最高(图1)。相应地,蛋白质咪唑缓冲基团的估计解离率αIm在血浆和脑中显著降低,表明存在酸滴定,但在肝脏和心脏中变化不大。横纹肌的情况居中(图2)。与其他哺乳动物一样,短期常温呼吸性酸中毒时细胞内的反应特点是脑内有部分代谢性代偿,横纹肌有少量代谢性酸化。在冬眠期间,肝脏和心脏发生了强大的代谢性代偿,几乎恢复了αIm,但脑内未出现代偿(图3至图5)。冬眠期间脑和横纹肌中存在细胞内酸中毒,这与酸中毒的抑制作用相符,而肝脏和心脏中细胞内αIm的稳态有助于这些器官中代谢调节的广温功能,就像大多数变温动物的器官一样。