大鼠和鸡小肠上皮细胞的分离及代谢特征
Isolation and metabolic characteristics of rat and chicken enterocytes.
作者信息
Watford M, Lund P, Krebs H A
出版信息
Biochem J. 1979 Mar 15;178(3):589-96. doi: 10.1042/bj1780589.
Abstract
- The recent recognition of the metabolic, as opposed to absorptive, functions of the small intestine prompted efforts the improve the preparation of metabolically competent columnar absorptive cells ('enterocytes') and to study their metabolic properties. 2. With this preparation, linear rates of O2 consumption are obtained for 40 min at 37 degrees C that are more than 50% higher than rates reported by other authors. 3. Among added substrates, glucose, glutamine and glutamate are the preferred fuels of respiration. The main nitrogenous products of glutamine metabolism are NH3, alanine and glutamate. Glutamine carbon was not detectable in citrulline or proline, in contrast with the findings of Windmueller & Spaeth [(1974) J. Biol. Chem. 249, 5070-5079] in the vascularly perfused small intestine. 4. The rates of O2 uptake in the presence of glutamine or glutamate are sufficient to account for the formation of the carbon skeleton of alanine from the amino acid substrate, i.e. the ratio of O2 used/alanine formed is greater than 1.5. 5. Added ADP and ATP are rapidly degraded to AMP and IMP to a large extent by release of hydrolytic enzymes from the enterocytes into the medium. 6. Chicken enterocytes isolated by the same method are more stable; linear rates of O2 uptake are maintained for 60-70 min.
摘要
- 近期对小肠代谢功能(而非吸收功能)的认识促使人们努力改进具有代谢活性的柱状吸收细胞(“肠上皮细胞”)的制备方法,并研究其代谢特性。2. 采用这种制备方法,在37℃下可获得40分钟的线性耗氧率,该耗氧率比其他作者报道的速率高出50%以上。3. 在添加的底物中,葡萄糖、谷氨酰胺和谷氨酸是呼吸作用的首选燃料。谷氨酰胺代谢的主要含氮产物是NH₃、丙氨酸和谷氨酸。与Windmueller和Spaeth [(1974) J. Biol. Chem. 249, 5070 - 5079]在血管灌注小肠中的发现相反,在瓜氨酸或脯氨酸中未检测到谷氨酰胺碳。4. 在谷氨酰胺或谷氨酸存在下的耗氧率足以解释由氨基酸底物形成丙氨酸的碳骨架,即消耗的O₂/形成的丙氨酸的比率大于1.5。5. 添加的ADP和ATP在很大程度上会通过肠上皮细胞向培养基中释放水解酶而迅速降解为AMP和IMP。6. 用相同方法分离的鸡肠上皮细胞更稳定;线性耗氧率可维持60 - 70分钟。
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