细胞质γ -谷氨酰转移酶:分离、产物形成及生理作用。

T C Welbourne
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摘要

这些结果确立了细胞质谷氨酰胺酶-谷氨酰转移酶作为一个独特实体的存在。其产物为氨和活化谷氨酸。氨的释放对酰胺键能的利用是形成-谷氨酰po4的必要条件。这种活化的谷氨酸可以在γ -谷氨酰循环中用于合成γ -谷氨酰半胱氨酸。细胞质谷氨酰胺利用途径与γ -谷氨酰循环活性密切相关:加载循环刺激肾谷氨酰胺摄取增加到该途径。因此,在ADP水平升高的刺激下,该通路似乎作为γ -谷氨酰基循环的辅助来源发挥作用。虽然与线粒体途径在代谢性酸中毒中对氨生成的贡献相比微不足道,但从单一假设的角度来看,它是非常重要的。这种双系统的存在证明了代谢性酸中毒中谷氨酰胺的利用从主要的细胞质到压倒性的线粒体谷氨酰胺利用的转变,对应于NH3/gln比值从1.2上升到1.9,以及gln碳作为CO2和葡萄糖的定量回收。这种途径的转变是由酸中毒(通过肾上腺激素)引起的,它代表了线粒体途径的10到20倍激活,这与糖皮质激素介导的线粒体内膜谷氨酰胺通透性增加完全一致。
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Cytoplasmic gamma-glutamyltransferase: isolation, product formation and physiological role.

These results establish the existence of a cytoplasmic glutaminase-gamma-glutamyltransferase enzyme as a distinct entity. Its products are ammonia and activated glutamate. Ammonia liberation is obligatory to the utilization of the amide bond energy in forming gamma-glutamyl-PO4. This activated glutamate can then be utilized in the gamma-glutamyl cycle for the synthesis of gamma-glutamylcysteine. The cytoplasmic glutamine utilizing pathway is closely coupled to gamma-glutamyl cycl activity: loading the cycle stimulates increased renal glutamine uptake into this pathway. Consequently, the pathway, stimulated by elevated ADP levels, appears to function as an auxilary source of gamma-glutamyl moieties for the gamma-glutamyl cycle. Although insignificant compared to the mitochondrial pathway's contribution to ammonia production in metabolic acidosis, it is highly significant from the perspective of the Unitary Hypothesis. The existence of this dual system allows the demonstration of a shift in glutamine utilization from predominant cytoplasmic to overwhelming mitochondrial glutamine utilization in metabolic acidosis corresponding to a rise in the NH3/gln ratio from 1.2 to 1.9 and a quantitative recovery of gln carbon as CO2 and glucose. The fact that this shift in pathways is induced by acidosis (through adrenosteroids) and that it represents a 10 to 20 fold activation of the mitochondrial pathway is completely consistent with a glucocorticoid mediated glutamine permeability increase of the inner mitochondrial membrane.

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