Silk D B, Nicholson J A, Kim Y S
Gut. 1976 Nov;17(11):870-6. doi: 10.1136/gut.17.11.870.
In order to investigate the source of free amino acids found in the gut lumen during absorption of dipeptides, as well as evaluating the role of brush border peptidases in the mucosal hydrolysis of dipeptides during absorption, rates of dipeptide disappearance and appearance of hydrolytic products were measured during perfusion of rat jejunum and ileum in vivo with buffered and unbuffered 10 mM solutions of glycl-L-phenylalanine (Gly-Phe) and L-phenylalanyl-glycine (Phe-Gly). Mucosal brush border peptidase activity was then measured in the perfused segments in vitro at luminal pH and at two substrate concentrations. In addition cytosol peptidase activity in the perfused segments was measured at pH 7-4 and at 10 mM substrate concentrations. In the jejunum, there was a relationship between rates of free phenylalanine appearance in vivo (Phe-Gly greater than Gly-Phe) and rates of brush border (Phe-Gly greater than Gly-Phe) rather than cytosol (Gly-Phe greater than Phe-Gly) peptidase activities. No constant relationship between free phenylalanine appearance and hydrolysis of the dipeptides by either brush border or cytosol peptidases was observed in the ileal studies. These findings suggest that, in the jejunum, hydrolytic products originate from the surface of the cell whereas, in the ileum, hydrolytic products originate from both the intracellular compartment as well as from the surface of the mucosal cell. In the jejunum, in vitro rates of brush border hydrolysis of Gly-Phe were always less than in vivo disappearance rates, whereas rates of Phe-Gly brush border hydrolysis always exceeded luminal disappearance rates. These data imply that Gly-Phe is predominantly transported intact and hydrolysed by cytosol peptidases, In contrast, brush border peptidases play an importnat role in the mucosal hydrolysis of Phe-Gly.
为了研究二肽吸收过程中肠腔内游离氨基酸的来源,以及评估刷状缘肽酶在吸收过程中二肽黏膜水解中的作用,在大鼠空肠和回肠体内灌注含缓冲液和不含缓冲液的10 mM甘氨酰-L-苯丙氨酸(Gly-Phe)和L-苯丙氨酰甘氨酸(Phe-Gly)溶液时,测量了二肽消失速率和水解产物的出现速率。然后在体外测量灌注段黏膜刷状缘肽酶在肠腔pH值和两种底物浓度下的活性。此外,还在pH 7.4和10 mM底物浓度下测量了灌注段胞质溶胶肽酶的活性。在空肠中,体内游离苯丙氨酸出现速率(Phe-Gly大于Gly-Phe)与刷状缘(Phe-Gly大于Gly-Phe)而非胞质溶胶(Gly-Phe大于Phe-Gly)肽酶活性之间存在关联。在回肠研究中,未观察到游离苯丙氨酸出现与刷状缘或胞质溶胶肽酶对二肽水解之间的恒定关系。这些发现表明,在空肠中,水解产物源自细胞表面,而在回肠中,水解产物既源自细胞内区室,也源自黏膜细胞表面。在空肠中,Gly-Phe的刷状缘体外水解速率始终低于体内消失速率,而Phe-Gly的刷状缘水解速率始终超过肠腔消失速率。这些数据表明,Gly-Phe主要完整转运并由胞质溶胶肽酶水解,相反,刷状缘肽酶在Phe-Gly的黏膜水解中起重要作用。