Abstract
Glucose and fluid transport by the rat intestine and by the tapeworm Hymenolepis diminuta has been studied in vivo, using closed loops of the entire small intestine. The effect of pH, glucose concentration, and the presence of sodium on solute and solvent absorption has been determined in both host and parasite. The effect of the worms on intestinal absorption by the rat has also been evaluated. Three components of the glucose transport system, namely active transport, diffusion, and solvent drag, were determined by means of a model transport equation.Saturation kinetics for glucose absorption did not occur and the absence of sodium in the luminal fluid, while not affecting glucose absorption, markedly reduced fluid absorption by both the intestine and the worms. Lowering the pH of luminal fluids significantly reduced glucose transport by the intestine but increased absorption of fluid and glucose by H. diminuta. Irrespective of pH, fluid and glucose absorption were significantly reduced in the parasitized intestine.Active transport of glucose by normal or parasitized intestine and by H. diminuta was unaffected by the concentration of glucose in the lumen, or by changes in pH. The solvent drag and diffusion components of glucose transport were reduced by increasing the hydrogen ion concentration in uninfected and parasitized intestines. The solvent drag component of glucose absorption by the tapeworms was increased with increasing hydrogen ion concentration.The results are discussed in terms of the current hypotheses on the mechanism of glucose transport, sodium dependency, and the effect of hydrogen ions on transport mechanisms.
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