使用氚水测量肝脏糖原合成的绝对速率。

The use of tritiated water to measure absolute rates of hepatic glycogen synthesis.

作者信息

Postle A D, Bloxham D P

出版信息

Biochem J. 1980 Oct 15;192(1):65-73. doi: 10.1042/bj1920065.

DOI:10.1042/bj1920065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1162308/

Abstract

Glucogen synthesis in rat liver in vivo was measured by the incorporation of 3H from 3H2O into glycogen. In meal-fed rats incorporation and the incorporation of 3H into glycogen was linear up to 100 min. Before feeding glycogen concentration and the incorporation of 3H were both low; and both rose on feeding to give maximal values after 2-3h. The glycogen concentration was maintained for a further 5h but the incorporation of 3H rapidly declined to pre-feeding values. This shows that glycogen turnover was low in the post-prandial rat. Streptozotocin diabetes decreased the rise in glycogen concentration on feeding and had a similar effect on 3H2O incorporation. Both effects were reversed by insulin administration. The number of 3H atoms incorporated per glycogen glucose moiety formed in biosynthetic experiments (2.84 +/- 0.47) was relatively constant and allowed absolute biosynthetic rates to be calculated. Degradation of glucose from glycogen labelled by 3H2O showed that most of the 3H was located at C-2 and C-5. The incorporation would arise by rapid equilibration of hexose phosphates through phosphoglucose isomerase, transaldolase and triose phosphate isomerase.

摘要

通过测量从(^{3}H_{2}O)中摄取的(^{3}H)掺入糖原的量来测定大鼠肝脏在体内的糖原合成。在喂食后的大鼠中，直到100分钟，(^{3}H)掺入糖原的量呈线性。喂食前，糖原浓度和(^{3}H)掺入量均较低；喂食后两者均升高，并在2 - 3小时后达到最大值。糖原浓度在接下来的5小时内保持不变，但(^{3}H)的掺入量迅速下降至喂食前的值。这表明餐后大鼠的糖原周转率较低。链脲佐菌素诱导的糖尿病降低了喂食后糖原浓度的升高，并且对(^{3}H_{2}O)掺入也有类似影响。胰岛素给药可逆转这两种影响。在生物合成实验中，每形成一个糖原葡萄糖部分掺入的(^{3}H)原子数（(2.84±0.47)）相对恒定，从而可以计算绝对生物合成速率。对由(^{3}H_{2}O)标记的糖原中葡萄糖的降解显示，大部分(^{3}H)位于C - 2和C - 5位。这种掺入是通过磷酸葡萄糖异构酶、转醛醇酶和磷酸丙糖异构酶使己糖磷酸快速平衡而产生的。

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