Substrate-induced changes in the density of peptide transporter PEPT1 expressed in Xenopus oocytes

Manuela Mertl, Hannelore Daniel, Gabor Kottra

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21 Scopus citations

Abstract

The adaptation of the capacity of the intestinal peptide transporter PEPT1 to varying substrate concentrations may be important with respect to its role in providing bulk quantities of amino acids for growth, development, and other nutritional needs. In the present study, we describe a novel phenomenon of the regulation of PEPT1 in the Xenopus oocyte system. Using electrophysiological and immunofluorescence methods, we demonstrate that a prolonged substrate exposure of rabbit PEPT1 (rPEPT1) caused a retrieval of transporters from the membrane. Capacitance as a measure of membrane surface area was increased in parallel with the increase in rPEPT1-mediated transport currents with a slope of ∼5% of basal surface per 100 nA. Exposure of oocytes to the model peptide Gly-L-Gln for 2 h resulted in a decrease in maximal transport currents with no change of membrane capacitance. However, exposure to substrate for 5 h decreased transport currents but also, in parallel, surface area by endocytotic removal of transporter proteins from the surface. The reduction of the surface expression of rPEPT1 was confirmed by presteady-state current measurements and immunofluorescent labeling of rPEPT1. A similar simultaneous decrease of current and surface area was also observed when endocytosis was stimulated by the activation of PKC. Cytochalasin D inhibited all changes evoked by either dipeptide or PKC stimulation, whereas the PKC-selective inhibitor bisindolylmaleimide only affected PKC-stimulated endocytotic processes but not substrate-dependent retrieval of rPEPT1. Coexpression experiments with human Na+-glucose transporter 1 (hSGLT1) revealed that substrate exposure selectively affected PEPT1 but not the activity of hSGLT1.

Original languageEnglish
Pages (from-to)C1332-C1343
JournalAmerican Journal of Physiology - Cell Physiology
Volume295
Issue number5
DOIs
StatePublished - Nov 2008

Keywords

  • Dipeptide
  • Electrophysiology
  • Endocytosis
  • Presteady-state currents
  • Surface expression

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