CNC - Center for Neuroscience and Cell Biology, University of Coimbra, 3004-517 Coimbra, Portugal.
Comp Biochem Physiol A Mol Integr Physiol. 2012 Sep;163(1):22-9. doi: 10.1016/j.cbpa.2012.04.023. Epub 2012 Apr 27.
Hepatic glycogen synthesis fluxes from direct and indirect pathways were quantified in seabass by postmortem (2)H NMR analysis of plasma water (PW) and glycogen glucosyl (2)H enrichments from (2)H-enriched seawater. Eighteen fish (28.0 ± 1.7 cm and 218.0 ± 43.0 g) were divided into three groups of 6 and studied over 24 days with transfer to 5% (2)H-seawater after day 21. Over this period, one group was fed daily with fishmeal, a second group was fasted, and a third group was fasted for 21 days followed by 3 days refeeding. Glycogen turnover and sources were determined from the ratio of glucosyl position 5 enrichment to that of plasma water (H5/PW). Glycogen levels of fed fish were significantly higher than fasted (665.4 ± 345.2 μmol.g(-1) liver versus 77.2 ± 59.5 μmol.g(-1) liver, P<0.05) while refed fish had comparable levels to fed (584.6 ± 140.4 μmol.g(-1) liver). Glycogen enrichment of fed fish was undetectable indicating negligible turnover over 3 days. For fasted fish, H5/PW was ~50% indicating that half of the glycogen had turned over via indirect pathway flux. For refed fish, H5/PW was ~100% indicating that the indirect pathway accounted for all net glycogen synthesis. Direct pathway conversion of dietary carbohydrate to glycogen was not detected in any of the groups.
通过死后(2)H NMR 分析血浆水(PW)和来自(2)H 富化海水的糖原葡萄糖基(2)H 富集,量化了鲈鱼中直接和间接途径的肝糖原合成通量。18 条鱼(28.0±1.7cm 和 218.0±43.0g)分为 3 组,每组 6 条,在第 21 天后转移到 5%(2)H 海水中进行 24 天研究。在此期间,一组鱼每天喂食鱼粉,第二组鱼禁食,第三组鱼禁食 21 天后再喂食 3 天。通过比较葡萄糖位 5 富集与血浆水(H5/PW)的比值,确定糖原周转率和来源。喂食鱼的肝糖原水平显著高于禁食鱼(665.4±345.2μmol.g(-1)肝脏比 77.2±59.5μmol.g(-1)肝脏,P<0.05),而再喂食鱼的肝糖原水平与喂食鱼相当(584.6±140.4μmol.g(-1)肝脏)。喂食鱼的肝糖原富集不可检测,表明在 3 天内几乎没有周转。对于禁食鱼,H5/PW 约为 50%,表明一半的糖原通过间接途径通量进行了周转。对于再喂食鱼,H5/PW 约为 100%,表明间接途径占总净糖原合成的全部。在任何一组中都未检测到膳食碳水化合物向糖原的直接途径转化。
