Enzymic hydrolysis of the carbon-fluorine bond of alpha-D-glucosyl fluoride by rat intestinal mucosa. Localization of intestinal maltase.

1. alpha-d-Glucosyl fluoride was hydrolysed by an extract of rat intestinal mucosa. The pH optimum was 6.6 and the K(m) 0.4mm at 20 degrees . Activity was assayed by release of either glucose or fluoride. 2. The alpha-d-glucosyl fluoride-hydrolase activity of the extract was associated with both mutarotase and alpha-d-glucosidase activities. 3. Tris (5mm) inhibited both the alpha-d-glucosidase and alpha-d-glucosyl fluoride-hydrolase activities by 55% but did not inhibit mutarotase. The K(i) of tris for both enzyme activities was 2mm. 4. The extract did not hydrolyse melibiose and lactose. Mutarotase used both alpha-d-glucose and beta-l-arabinose as substrates but the glucosyl fluoride-hydrolase activity did not extend to beta-l-arabinosyl fluoride. 5. The thermal stability of alpha-d-glucosidase and alpha-d-glucosyl fluoride hydrolase was identical. Mutarotase was more thermolabile. 6. A preparation of the brush border of intestinal epithelial cells contained both alpha-d-glucosyl fluoride-hydrolase and alpha-d-glucosidase activities. In each precipitate and washing the ratio of the two activities was the same. All the mutarotase activity was in the first supernatant. 7. Agidex, a fungal amyloglucosidase, cleaved glucosyl fluoride in addition to maltose. Tris inhibited both activities and in each case the K(i) was 3mm. 8. The probable identity of alpha-d-glucosyl fluoride hydrolase with alpha-d-glucosidase is discussed and a possible mechanism for the reaction suggested. 9. Incubation of intestinal slices with alpha-d-glucosyl fluoride led to complete hydrolysis in 30min. The glucose rapidly entered the cell and was metabolized, leaving the fluoride in the incubation medium. This constitutes a further proof that the intestinal alpha-d-glucosidase, although on the brush border, is located outside the site of active transport of sugars.