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相似文献

1
The effect of lysine on gluconeogenesis from lactate in rat hepatocytes.赖氨酸对大鼠肝细胞中乳酸糖异生的影响。
Biochem J. 1974 Aug;142(2):327-37. doi: 10.1042/bj1420327.
2
Accumulation of amino acids by the perfused rat liver in the presence of ethanol.在乙醇存在的情况下,灌注大鼠肝脏对氨基酸的摄取。
Biochem J. 1973 Jul;134(3):697-705. doi: 10.1042/bj1340697.
3
Abolition of the inhibitory effect of ethanol oxidation on gluconeogenesis from lactate by asparagine or low concentrations of ammonia.天冬酰胺或低浓度氨消除乙醇氧化对由乳酸生成糖异生作用的抑制效应。
Biochim Biophys Acta. 1995 Jun 9;1244(2-3):303-10. doi: 10.1016/0304-4165(95)00034-9.
4
Interrelations between ureogenesis and gluconeogenesis in isolated hepatocytes. The role of antion transport and the competition for energy.分离肝细胞中尿素生成与糖异生之间的相互关系。阴离子转运的作用及对能量的竞争。
Biochem J. 1978 Feb 15;170(2):379-385. doi: 10.1042/bj1700379.
5
Effect of glucagon on metabolite compartmentation in isolated rat liver cells during gluconeogenesis from lactate.胰高血糖素对乳酸糖异生过程中分离的大鼠肝细胞代谢物区室化的影响。
Biochem J. 1977 Aug 15;166(2):225-35. doi: 10.1042/bj1660225.
6
On the stimulation of gluconeogenesis by L-lysine in isolated rat kidney cortex tubules.L-赖氨酸对离体大鼠肾皮质肾小管糖异生的刺激作用
Biochim Biophys Acta. 1975 Jun 12;392(2):255-70. doi: 10.1016/0304-4165(75)90007-0.
7
Aminooxyacetate inhibits gluconeogenesis by isolated chicken hepatocytes.氨氧基乙酸抑制离体鸡肝细胞的糖异生作用。
Biochim Biophys Acta. 1980 Oct 1;632(2):260-9. doi: 10.1016/0304-4165(80)90084-7.
8
Gluconeogenesis by isolated guinea-pig liver parenchymal cells.豚鼠肝脏实质细胞分离后的糖异生作用。
Biochem J. 1975 Nov;152(2):393-9. doi: 10.1042/bj1520393.
9
Gluconeogenesis in the kidney cortex. Effects of D-malate and amino-oxyacetate.肾皮质中的糖异生作用。D-苹果酸和氨基氧乙酸的影响。
Biochem J. 1970 Feb;116(3):483-91. doi: 10.1042/bj1160483.
10
The interaction between the cytosolic pyridine nucleotide redox potential and gluconeogenesis from lactate/pyruvate in isolated rat hepatocytes. Implications for investigations of hormone action.大鼠离体肝细胞中胞质吡啶核苷酸氧化还原电位与乳酸/丙酮酸糖异生之间的相互作用。对激素作用研究的启示。
J Biol Chem. 1985 Oct 15;260(23):12748-53.

引用本文的文献

1
Recent advances of lysine lactylation in prokaryotes and eukaryotes.赖氨酸乳酰化在原核生物和真核生物中的最新进展。
Front Mol Biosci. 2025 Jan 9;11:1510975. doi: 10.3389/fmolb.2024.1510975. eCollection 2024.
2
An integrated multi-omic approach demonstrates distinct molecular signatures between human obesity with and without metabolic complications: a case-control study.一种整合的多组学方法证明了人类肥胖症伴和不伴代谢并发症之间具有明显的分子特征:一项病例对照研究。
J Transl Med. 2023 Mar 29;21(1):229. doi: 10.1186/s12967-023-04074-x.
3
Are cell redox or lactate dehydrogenase kinetics responsible for the absence of gluconeogenesis from lactate in sea raven, hepatocytes?细胞氧化还原状态或乳酸脱氢酶动力学是否是海鸦肝细胞中无乳酸生成葡萄糖的原因?
Fish Physiol Biochem. 1994 May;13(1):59-67. doi: 10.1007/BF00004120.
4
The effect of diabetes mellitus on portal blood hepatotrophic factors in dogs.糖尿病对犬门静脉血中肝营养因子的影响。
Surg Gynecol Obstet. 1975 Apr;140(4):549-62.
5
The rôle of mitochondrial pyruvate transport in the stimulation by glucagon and phenylephrine of gluconeogenesis from L-lactate in isolated rat hepatocytes.线粒体丙酮酸转运在胰高血糖素和去氧肾上腺素刺激离体大鼠肝细胞由L-乳酸进行糖异生过程中的作用。
Biochem J. 1981 Sep 15;198(3):551-60. doi: 10.1042/bj1980551.
6
Re-activation by glutamate or aspartate of amino-oxyacetate-inhibited aspartate aminotransferase in vitro and in isolated hepatocytes.谷氨酸或天冬氨酸在体外及分离的肝细胞中对氨基氧乙酸抑制的天冬氨酸转氨酶的再激活作用。
Biochem J. 1981 Jul 15;198(1):219-23. doi: 10.1042/bj1980219.
7
Inhibition by cycloserine of mitochondrial and cytosolic aspartate aminotransferase in isolated rat hepatocytes.环丝氨酸对分离的大鼠肝细胞中线粒体和胞质天冬氨酸氨基转移酶的抑制作用。
Biochem J. 1981 Mar 15;194(3):1027-30. doi: 10.1042/bj1941027.
8
Is N-acetylglutamate a short-term regulator of urea synthesis?N-乙酰谷氨酸是尿素合成的短期调节因子吗?
Biochem J. 1984 Mar 15;218(3):991-4. doi: 10.1042/bj2180991.
9
Potentiation by ammonia of the metabolic effects of pent-4-enoate in isolated rat hepatocytes.氨对离体大鼠肝细胞中戊-4-烯酸代谢作用的增强效应。
Biochem J. 1984 Nov 15;224(1):263-7. doi: 10.1042/bj2240263.
10
Selective inhibition of alanine aminotransferase and aspartate aminotransferase in rat hepatocytes.大鼠肝细胞中丙氨酸氨基转移酶和天冬氨酸氨基转移酶的选择性抑制
Biochem J. 1984 Jun 15;220(3):707-16. doi: 10.1042/bj2200707.

本文引用的文献

1
Acceleration of gluconeogenesis from lactate by lysine (Short Communication).赖氨酸促进乳酸的糖异生(简短通讯)。
Biochem J. 1973 Jun;134(2):671-2. doi: 10.1042/bj1340671.
2
Restricted permeability of rat liver for glutamate and succinate.大鼠肝对谷氨酸和琥珀酸的通透性受限。
Biochem J. 1968 May;107(6):807-15. doi: 10.1042/bj1070807.
3
[On the metabolite content and the metabolite concentration in the liver of the rat].[关于大鼠肝脏中的代谢物含量及代谢物浓度]
Biochem Z. 1959;332:18-46.
4
COMPARATIVE PROPERTIES OF GLUTAMIC-ALANINE TRANSAMINASE FROM SEVERAL SOURCES.几种来源的谷氨酸 - 丙氨酸转氨酶的比较特性
Arch Biochem Biophys. 1964 Jun;105:501-5. doi: 10.1016/0003-9861(64)90042-6.
5
Enzymic determination of D(-)-beta-hydroxybutyric acid and acetoacetic acid in blood.血液中D(-)-β-羟基丁酸和乙酰乙酸的酶法测定
Biochem J. 1962 Jan;82(1):90-6. doi: 10.1042/bj0820090.
6
The inhibition of gamma aminobutyric-alpha-ketoglutaric acid transaminase in vitro and in vivo by amino-oxyacetic acid.氨氧基乙酸在体外和体内对γ-氨基丁酸-α-酮戊二酸转氨酶的抑制作用。
Biochem Pharmacol. 1960 Oct;5:166-7. doi: 10.1016/0006-2952(60)90019-8.
7
The hypoglycemic action of metabolic derivatives of L-tryptophan by mouth.L-色氨酸代谢衍生物经口的降血糖作用。
Endocrinology. 1957 Feb;60(2):318-24. doi: 10.1210/endo-60-2-318.
8
Penetration of the mitochondrial membrane by glutamate and aspartate.谷氨酸和天冬氨酸对线粒体膜的穿透作用。
Biochem Biophys Res Commun. 1967 Oct 11;29(1):148-52. doi: 10.1016/0006-291x(67)90556-6.
9
Influence of L-tryptophan and its metabolites on gluconeogenesis in the isolated, perfused liver.L-色氨酸及其代谢产物对离体灌注肝脏糖异生的影响。
Biochemistry. 1967 Jul;6(7):2129-38. doi: 10.1021/bi00859a034.
10
Concentrations of free glucogenic amino acids in livers of rats subjected to various metabolic stresses.遭受各种代谢应激的大鼠肝脏中游离生糖氨基酸的浓度。
Biochem J. 1967 Aug;104(2):497-502. doi: 10.1042/bj1040497.

赖氨酸对大鼠肝细胞中乳酸糖异生的影响。

The effect of lysine on gluconeogenesis from lactate in rat hepatocytes.

作者信息

Cornell N W, Lund P, Krebs H A

出版信息

Biochem J. 1974 Aug;142(2):327-37. doi: 10.1042/bj1420327.

DOI:10.1042/bj1420327
PMID:4155292
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1168283/
Abstract
  1. In freshly prepared isolated rat liver cells there is a lag in gluconeogenesis from lactate. The magnitude of the lag increases with increasing lactate concentration. 2. The lag is virtually abolished by lysine. 3. A few other amino acids (tyrosine, arginine, asparagine, ornithine) and NH(4)Cl had effects similar to, but less pronounced than, lysine during the early stage of incubation. Lysine was unique in accelerating gluconeogenesis beyond the lag period. 4. The effects of the accelerators are not additive. 5. Glycine, serine, threonine, cysteine, tryptophan and histidine at 2mm markedly inhibit (>20%) gluconeogenesis from lactate. 6. Oleate, which promotes gluconeogenesis from lactate by supplying acetyl-CoA required for the pyruvate carboxylase reaction, had no effect on the lag, yet oleate oxidation showed no lag. 7. Preincubation of cells decreased the lag and decreased the magnitude of the lysine effect. 8. Pyruvate (added at 1mm to give an initial [lactate]/[pyruvate] ratio of 10) also abolished the lag and decreased the lysine effect by about 50%. 9. Lysine reversed the inhibition by ethanol of gluconeogenesis from lactate. 10. All accelerators increased the rate of re-oxidation of cytosolic NADH as shown by a rapid re-adjustment of the [lactate]/[pyruvate] ratio on addition of 10mm-lactate. 11. The accelerated rates of gluconeogenesis are associated with an increased formation of aspartate and glutamate and especially alanine. 12. The existence of the lag period can be explained on the basis of the fact that the accumulation of pyruvate during the lag diverts oxaloacetate from gluconeogenesis to malate formation, i.e. that the re-oxidation of cytosolic NADH takes precedence over gluconeogenesis. This means that much oxaloacetate formed by the pyruvate carboxylase reaction has to be transferred twice from the mitochondria to the cytosol by the aspartate shuttle. Under these conditions the operation of the shuttle limits the rate of gluconeogenesis from lactate. Lysine and other accelerators may increase the effectiveness of the shuttle by providing components of the aspartate aminotransferases involved. The question of why lysine specifically accelerates gluconeogenesis beyond the lag period is discussed.
摘要
  1. 在新鲜制备的离体大鼠肝细胞中,由乳酸生成葡萄糖的过程存在延迟。延迟的程度随乳酸浓度的增加而增大。2. 赖氨酸几乎消除了这种延迟。3. 在孵育早期,其他几种氨基酸(酪氨酸、精氨酸、天冬酰胺、鸟氨酸)和氯化铵具有与赖氨酸相似但程度较弱的作用。赖氨酸的独特之处在于它能在延迟期之后加速糖异生作用。4. 这些促进剂的作用并非相加的。5. 2 毫摩尔的甘氨酸、丝氨酸、苏氨酸、半胱氨酸、色氨酸和组氨酸显著抑制(>20%)由乳酸生成葡萄糖的过程。6. 油酸通过提供丙酮酸羧化酶反应所需的乙酰辅酶 A 来促进由乳酸生成葡萄糖,但对延迟没有影响,然而油酸氧化却没有延迟。7. 细胞预孵育可减少延迟并降低赖氨酸的作用程度。8. 丙酮酸(以 1 毫摩尔添加,使初始的[乳酸]/[丙酮酸]比值为 10)也消除了延迟,并使赖氨酸的作用降低约 50%。9. 赖氨酸逆转了乙醇对由乳酸生成葡萄糖的抑制作用。10. 如加入 10 毫摩尔乳酸后[乳酸]/[丙酮酸]比值迅速重新调整所示,所有促进剂均提高了胞质 NADH 的再氧化速率。11. 加速的糖异生速率与天冬氨酸和谷氨酸尤其是丙氨酸生成的增加有关。12. 延迟期的存在可以基于以下事实来解释:延迟期间丙酮酸的积累将草酰乙酸从糖异生过程转移至苹果酸的生成,即胞质 NADH 的再氧化优先于糖异生作用。这意味着丙酮酸羧化酶反应生成的许多草酰乙酸必须通过天冬氨酸穿梭从线粒体转移至胞质两次。在这些条件下,穿梭的运作限制了由乳酸生成葡萄糖的速率。赖氨酸和其他促进剂可能通过提供所涉及的天冬氨酸转氨酶的成分来提高穿梭的效率。文中讨论了为何赖氨酸能在延迟期之后特异性地加速糖异生作用这一问题。