THE SMALL-INTESTINAL FRUCTOSE TRANSPORTERS - SITE OF DIETARY PERCEPTION AND EVIDENCE FOR DIURNAL AND FRUCTOSE SENSITIVE CONTROL ELEMENTS

To obtain an insight into the mechanisms responsible for GLUTS diurnal ity and fructose responsiveness, rats were gavaged at 9:00 AM or 6:00 PM with 1 g of fructose in the presence or absence of cycloheximide. A fter 4 h of fructose exposure, GLUTS mRNA and protein levels increased 2-3.5-fold above the natural diurnal levels of expression. In situ hy bridization and immunochemical analysis of GLUTS mRNA and protein demo nstrated that both diurnality and fructose responsiveness was confined to mature enterocytes. The protein synthesis inhibitor, cycloheximide , blunted the diurnal and fructose driven increase in GLUTS mRNA expre ssion in the morning, but had minimal effect on the pattern of express ion in the evening. This differential sensitivity of intestinal GLUTS mRNA to de novo protein synthesis may reflect the increasing presence of diurnal and fructose sensitive control factors during the day. Foll owing vehicle gavage, Cycloheximide was more effective in reducing GLU TS protein expression levels in the morning when compared to the eveni ng. These data suggest that the turnover of GLUTS protein may be diurn ally influenced. (C) 1998 Elsevier Science B.V.