Characterization in vitro of H+ secretion and H+:Na+ exchange by an organism normally inhabiting a CO2-rich environment: Hymenolepis diminuta (Cestoda) in the rat intestine

Abstract

H⁺ and Na⁺ transport by the intestinal parasite Hymenolepis diminuta were studied in vitro. The flatworms acidified the ambient fluid by secreting H⁺ and the acidification could not be correlated with organic acid excretion. Ambient CO₂-independent H⁺ secretion was attributed to protons of metabolic origin: dephosphorylation reactions and ionization of organic acids within the tissues. Ambient CO₂-dependent H⁺ secretion was attributed to protons produced as a result of the hydration of CO₂ within the tissue and to the stimulation of anaerobic metabolic pathways by CO₂ acting as a cosubstrate in energy metabolism. Studies in which Na⁺ uptake was stimulated by CO₂ or glucose and inhibited by ouabain, amiloride, or Na⁺ replacement suggested a partial direct coupling of Na⁺ absorption and H⁺ secretion but the different activation energies and the effect of buffer anions other than HCO₃⁻ suggested an indirect interaction. Various interactions were considered, including the effect of CO₂ and intracellular ion concentrations on metabolic reactions leading to the supply of protons for H⁺ secretion and energy for ion transport.