Abstract
Porcine pancreatic α-amylase (PPA) binds to N-linked glycans of glycoproteins (Matsushita, H., Takenaka, M., and Ogawa, H. (2002) J. Biol Chem., 277, 4680-4686). Immunostaining revealed that PPA is located at the brush-border membrane (BBM) of enterocytes in the duodenum and that the binding is inhibited by mannan but not galactan, indicating that PPA binds carbohydrate-specifically to BBM. The ligands for PPA in BBM were identified as glycoprotein N-glycans that are significantly involved in the assimilation of glucose, including sucrase-isomaltase (SI) and Na(+)/Glc cotransporter 1 (SGLT1). Binding of SI and SGLT1 in BBM to PPA was dose-dependent and inhibited by mannan. Using BBM vesicles, we found functional changes in PPA and its ligands in BBM due to the N-glycan-specific interaction. The starch-degrading activity of PPA and maltose-degrading activity of SI were enhanced to 240 and 175%, respectively, while Glc uptake by SGLT1 was markedly inhibited by PPA at high but physiologically possible concentrations, and the binding was attenuated by the addition of mannose-specific lectins, especially from Galanthus nivalis. Additionally, recombinant human pancreatic α-amylases expressed in yeast and purified by single-step affinity chromatography exhibited the same carbohydrate binding specificity as PPA in binding assays with sugar-biotinyl polymer probes. The results indicate that mammalian pancreatic α-amylases share a common carbohydrate binding activity and specifically bind to the intestinal BBM. Interaction with N-glycans in the BBM activated PPA and SI to produce much Glc on the one hand and to inhibit Glc absorption by enterocytes via SGLT1 in order to prevent a rapid increase in blood sugar on the other.
Highlights
To confirm that Porcine pancreatic ␣-amylase (PPA) bound to the brush-border membrane (BBM) in the duodenum, the immunolocalizations of the marker enzymes for BBM of enterocytes, SI and SGLT1 [20], were compared
The results indicated that PPA introduced in duodenum bound to the apical surface via N-glycan ligands in BBM
The findings in this study show that ␣-amylase binds to specific glycoprotein ligands in BBM of the duodenum and that both ␣-amylase and SI are allosterically activated to accelerate the starch degradation to produce Glc rapidly on the one hand (Fig. 12B, left), whereas uptake of Glc into enterocytes is suppressed by interaction between SGLT1 and a high concentration of PPA on the other hand to prevent a sudden increase in blood Glc
Summary
Interaction with N-glycans in the BBM activated PPA and SI to produce much Glc on the one hand and to inhibit Glc absorption by enterocytes via SGLT1 in order to prevent a rapid increase in blood sugar on the other. We previously showed that porcine pancreatic ␣-amylase (PPA) binds with the N-glycans of glycoproteins [7] This binding activity was not observed in ␣-amylases from Bacillus subtilis, plants, or human saliva. Recombinant human pancreatic ␣-amylase (recHPA) was prepared to compare its carbohydrate binding activity with that of PPA This is the first report that identifies the biological ligands for ␣-amylase with the exception of substrate starch and reveals novel functional changes occurring in BBM due to carbohydrate-specific interactions of this long-known enzyme. This study will open new windows into the modulatory role of cell surface glycans for metabolic homeostasis
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