Cook G C
Gut. 1976 Apr;17(4):252-7. doi: 10.1136/gut.17.4.252.
Using a double-lumen tube jejunal perfusion system in vivo, the mutual effects of carnosine (beta-alanyl-L-histidine) and glycylglycine on their respective absorption rates have been studied in six Zambian African adults. Data on the effect of the constituent amino-acids of carnosine on glycylglycine absorption rate have similarly been obtained. The solutions infused in each subject contained (A) carnosine (50 mmol l.-1), (B) carnosine (50 mmol l.-1) and glycylglycine (50 mmol l.-1), (C) glycylglycine (50 mmol l.-1), and (D) glycylglycine (50 mmol l.-1), L-histidine (50 mmol l.-1) and beta-alanine (50 mmol l.-1). Glycylglycine produced a significant impairment in the mean rate of histidine absorption from carnosine (P less than 0-01). However, carnosine did not have a significant effect on the mean rate of glycine absorption from glycylglycine. Mean rate of histidine absorption from solution D was significantly higher than that from solution A (P less than 0-01). Mean rate of glycine absorption from glycylglycine was not significantly different during infusion of solutions B, C, and D. The results are consistent with the concept that carnosine on glycylglycine is probably because the affinity of mechanism; the lack of influence of carnosine on glycylglycine is probably because the affinity of carnosine for the dipeptide uptake mechanism is relatively low. A gross difference has been shown between mean absorption rate of histidine from free L-histidine (solution D) (25-8 mmol h-1) and when it is given in the form of carnosine in the presence of another dipeptide (solution B) (8-7 mmol h-1); that emphasizes the complexity of amino acid and peptide interaction during absorption, which must be important in nutrition.
在体内使用双腔管空肠灌注系统,对6名赞比亚成年非洲人研究了肌肽(β-丙氨酰-L-组氨酸)和甘氨酰甘氨酸对其各自吸收率的相互影响。同样获得了关于肌肽组成氨基酸对甘氨酰甘氨酸吸收率影响的数据。向每个受试者输注的溶液包含:(A)肌肽(50 mmol/L),(B)肌肽(50 mmol/L)和甘氨酰甘氨酸(50 mmol/L),(C)甘氨酰甘氨酸(50 mmol/L),以及(D)甘氨酰甘氨酸(50 mmol/L)、L-组氨酸(50 mmol/L)和β-丙氨酸(50 mmol/L)。甘氨酰甘氨酸显著损害了肌肽中组氨酸的平均吸收速率(P<0.01)。然而,肌肽对甘氨酰甘氨酸中甘氨酸的平均吸收速率没有显著影响。溶液D中组氨酸的平均吸收速率显著高于溶液A(P<0.01)。在输注溶液B、C和D期间,甘氨酰甘氨酸中甘氨酸的平均吸收速率没有显著差异。结果与以下概念一致,即肌肽对甘氨酰甘氨酸的影响可能是因为机制的亲和力;肌肽对甘氨酰甘氨酸缺乏影响可能是因为肌肽对二肽摄取机制的亲和力相对较低。已显示游离L-组氨酸(溶液D)中组氨酸的平均吸收速率(25.8 mmol/h)与在另一种二肽存在下以肌肽形式给予时(溶液B)(8.7 mmol/h)之间存在显著差异;这强调了吸收过程中氨基酸和肽相互作用的复杂性,这在营养中必定很重要。