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Kinetics of glucose transport by the perfused mid-gut of the freshwater prawn Macrobrachium rosenberg ii.

  • G A Ahearn
  • L A Maginniss
Publication Date
Oct 01, 1977


1. Mucosal influx of [3H]glucose was examined in the mid-gut of a freshwater prawn, Macrobrachium rosenbergii, using an in vitro perfusion technique. 2. [3H]glucose transfer across the apical cell membrane of the epithelium exhibited Michaelis-Menten kinetics ( = 0-15 mumole glucose equiv/g. min, Kt = 0-17 mM). Under Na-free conditions, glucose influx was significantly reduced and a linear function of substrate concentration, indicative of either slow cellular diffusion (KD = 7-6 X 10(3) mumole glucose equiv/g. min. mM) or a facilitated process with a low carrier affinity for the sugar. 3. Phlorizin was a potent competitive inhibitor of glucose influx (K1 = 3-6 X10(-3) mM), galactose and 3-O-methylglucose (3-O-MG) were weak inhibitors, and fructose had no evident effect on glucose uptake. Azide, but not iodoacetate (IAA), significantly depressed influx. 4. Absorbed [3H]glucose was rapidly metabolized by the mid-gut. The majority of accumulated activity within the tissue was in the form of phosphorylated compounds and tritiated water (THO), while only 0-3% was recovered as a free-glucose. 5. Preliminary studies examining transmural [3-H]glucose transport, however, demonstrated a significant net mucosal to serosal free-glucose flux across the prawn mid-gut which was Na-dependent and IAA- and phlorizin-sensitive. Two alternative interpretations of the data are advanced as possible mechanisms for transepithelial glucose transport: (1) group translocation, or (2) the operation of an energized, high affinity, baso-lateral sugar transport carrier.

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