Celangulin V (CV) is the main insecticidal constituent of . The V-ATPase H subunit of the midgut cells of lepidopteran larvae is the putative target protein of CV. Here, we compared the effects of CV on the midgut membrane potentials of and larvae with those of the Cry1Ab toxin from and with those of inactive CV-MIA, a synthetic derivative of CV. We investigated the changes in the apical membrane potentials () and basolateral membrane potentials () of the midguts of sixth-instar larvae force-fed with the test toxins. We also measured the and of larval midguts that were directly incubated with the test toxins. Similar to the effect of Cry1Ab, the of CV-treated midguts rapidly decayed over time in a dose-dependent manner. By contrast, CV-MIA did not influence . Meanwhile, the of larval midguts directly incubated with CV decayed less than that of larval midguts, whereas that of larvae force-fed with CV did not significantly change. Similar to Cry1Ab, CV did not affect the of isolated midguts. CV significantly inhibited V-ATPase activity in a dose-dependent manner. Therefore, CV initially inhibits V-ATPase in the apical membrane and affects intracellular pH, homeostasis, and nutrient transport mechanisms in lepidopteran midgut cells.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5744113PMC
http://dx.doi.org/10.3390/toxins9120393DOI Listing

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