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正常和酸中毒大鼠肾皮质线粒体对谷氨酰胺的转运与代谢

The transport and metabolism of glutamine by kidney-cortex mitochondria from normal and acidotic rats.

作者信息

Brosnan J T, Hall B

出版信息

Biochem J. 1977 May 15;164(2):331-7. doi: 10.1042/bj1640331.

DOI:10.1042/bj1640331
PMID:560188
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1164797/
Abstract
  1. The oxidation of glutamine by kidney-cortex mitochondria from normal and acidotic rats was not inhibited by avenaciolide, which did inhibit glutamate uptake and oxidation. The oxidation of glutamine by these mitochondria was always greater than that of glutamate. Direct measurements of the metabolism of [1-14C]glutamine in the presence of glutamate, and of [1-14C]glutamate in the presence of glutamine, demonstrated that the uptake and metabolism of external glutamate is insufficient to account for the observed rate of glutamine uptake and metabolism. Thus the postulated glutamine/glutamate antiport does not play a quantitatively important role in the metabolism of glutamine by renal mitochondria. 2. Rapid swelling of these mitochondria was observed in iso-osmotic solutions of L-glutamine and L-glutamyl-gamma-monohydroxamate but not in D-glutamine or L-isoglutamine (1-amido-2-aminoglutaric acid). Thus a relatively specific glutamine uniport exists in these mitochondria. 3. The utilization of glutamine was increased about 3-fold in mitochondria from chronically acidotic rats. Thus mitochondrial adaptations play an important part in the renal response to metabolic acidosis.
摘要
  1. 燕麦镰孢醇并不抑制正常大鼠和酸中毒大鼠肾皮质线粒体对谷氨酰胺的氧化,但其确实会抑制谷氨酸的摄取和氧化。这些线粒体对谷氨酰胺的氧化作用总是强于对谷氨酸的氧化作用。在有谷氨酸存在的情况下对[1-¹⁴C]谷氨酰胺代谢的直接测量,以及在有谷氨酰胺存在的情况下对[1-¹⁴C]谷氨酸代谢的直接测量,结果表明,外部谷氨酸的摄取和代谢不足以解释所观察到的谷氨酰胺摄取和代谢速率。因此,假定的谷氨酰胺/谷氨酸反向转运体在肾线粒体对谷氨酰胺的代谢中并未发挥重要的定量作用。2. 在L-谷氨酰胺和L-谷氨酰-γ-单羟肟酸的等渗溶液中观察到这些线粒体迅速肿胀,但在D-谷氨酰胺或L-异谷氨酰胺(1-酰胺基-2-氨基戊二酸)中未观察到这种现象。因此,在这些线粒体中存在一种相对特异性的谷氨酰胺单向转运体。3. 慢性酸中毒大鼠的线粒体中谷氨酰胺的利用率提高了约3倍。因此,线粒体适应性在肾脏对代谢性酸中毒的反应中起重要作用。

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本文引用的文献

1
N15 TRACER STUDIES ON THE ORIGIN OF URINARY AMMONIA IN THE ACIDOTIC DOG, WITH NOTES ON THE ENZYMATIC SYNTHESIS OF LABELED CLUTAMIC ACID AND GLUTAMINES.关于酸中毒犬尿氨来源的N15示踪研究,附标记谷氨酸和谷氨酰胺酶促合成的注释
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THE METABOLISM OF GLUTAMATE IN HOMOGENATES AND SLICES OF BRAIN CORTEX.大脑皮层匀浆和切片中谷氨酸的代谢
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Effects of metabolic acidosis and starvation on the content of intermediary metabolites in rat kidney.代谢性酸中毒和饥饿对大鼠肾脏中间代谢产物含量的影响。
Biochem J. 1971 Jul;123(3):391-7. doi: 10.1042/bj1230391.
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Glutamine transport in rat kidney mitochondria in metabolic acidosis.代谢性酸中毒时大鼠肾线粒体中的谷氨酰胺转运
J Clin Invest. 1974 Jul;54(1):165-74. doi: 10.1172/JCI107738.
6
Transport of glutamine and glutamate in kidney mitochondria in relation to glutamine deamidation.肾脏线粒体中谷氨酰胺和谷氨酸的转运与谷氨酰胺脱酰胺作用的关系
Biochem J. 1973 Jan;132(1):35-46. doi: 10.1042/bj1320035.
7
The intramitochondrial location of the glutaminase isoenzymes of pig kidney.猪肾谷氨酰胺酶同工酶在线粒体内的定位。
Biochem J. 1973 Jan;132(1):27-34. doi: 10.1042/bj1320027.
8
Symposium on acid-base homeostasis. Control of renal production of ammonia.酸碱平衡专题研讨会。肾脏氨生成的调控。
Kidney Int. 1972 May;1(5):297-305. doi: 10.1038/ki.1972.42.
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Biochim Biophys Acta. 1974 Aug 7;362(1):83-91. doi: 10.1016/0304-4165(74)90029-4.
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