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Fig. 5. The V-type H+ ATPase powers transepithelial NaCl and KCl
secretion in Malpighian tubules of the yellow fever mosquito. Only conductive
transport pathways are shown to illustrate diverse voltage-dependent transport
mechanisms driven by the V-type H+ ATPase located at the apical
membrane. Intraepithelial current generated by the proton pump is carried by
H+ across the apical membrane, by Cl- through the
paracellular pathway (septate junctions, sj), and by K+ and
Na+ across the basolateral membrane. Under control conditions,
K+ channels account for as much as 64% of the conductance of the
basolateral membrane (Beyenbach and Masia,
2002). Claudin-like proteins are hypothesized to define the
Cl- selectivity of the paracellular, septate junctional pathway
(Beyenbach, 2003).
The 2H+/cat+ antiporter in the apical membrane remains to be identified. Mosquito natriuretic peptide and its second messenger cyclic AMP decrease the resistance to Na+ entry across the basolateral membrane (Beyenbach, 2001). The diuretic peptide leucokinin decreases the resistance of the paracellular pathway for Cl- (Beyenbach, 2003). Ep, electromotive force of the V-type H+ ATPase; R, resistance; I, current; p, pump, cat+, cation. Ep and Rp form a proton current generator.
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