AUTHOR=Hernández Agustín , Herrera-Palau Rosana , Madroñal Juan M. , Albi Tomás , López-Lluch Guillermo , Perez-Castiñeira José R. , Navas Plácido , Valverde Federico , Serrano Aurelio 

TITLE=Vacuolar H+-Pyrophosphatase AVP1 is Involved in Amine Fungicide Tolerance in Arabidopsis thaliana and Provides Tridemorph Resistance in Yeast

JOURNAL=Frontiers in Plant Science

VOLUME=7

YEAR=2016

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2016.00085

DOI=10.3389/fpls.2016.00085

ISSN=1664-462X

ABSTRACT=<p>Amine fungicides are widely used as crop protectants. Their success is believed to be related to their ability to inhibit postlanosterol sterol biosynthesis in fungi, in particular sterol-Δ<sup>8</sup>,Δ<sup>7</sup>-isomerases and sterol-Δ<sup>14</sup>-reductases, with a concomitant accumulation of toxic abnormal sterols. However, their actual cellular effects and mechanisms of death induction are still poorly understood. Paradoxically, plants exhibit a natural resistance to amine fungicides although they have similar enzymes in postcicloartenol sterol biosynthesis that are also susceptible to fungicide inhibition. A major difference in vacuolar ion homeostasis between plants and fungi is the presence of a dual set of primary proton pumps in the former (V-ATPase and H<sup>+</sup>-pyrophosphatase), but only the V-ATPase in the latter. Abnormal sterols affect the proton-pumping capacity of V-ATPases in fungi and this has been proposed as a major determinant in fungicide action. Using <italic>Saccharomyces cerevisiae</italic> as a model fungus, we provide evidence that amine fungicide treatment induced cell death by apoptosis. Cell death was concomitant with impaired H<sup>+</sup>-pumping capacity in vacuole vesicles and dependent on vacuolar proteases. Also, the heterologous expression of the <italic>Arabidopsis thaliana</italic> main H<sup>+</sup>-pyrophosphatase (AVP1) at the fungal vacuolar membrane reduced apoptosis levels in yeast and increased resistance to amine fungicides. Consistently, <italic>A. thaliana avp1</italic> mutant seedlings showed increased susceptibility to this amine fungicide, particularly at the level of root development. This is in agreement with <italic>AVP1</italic> being nearly the sole H<sup>+</sup>-pyrophosphatase gene expressed at the root elongation zones. All in all, the present data suggest that H<sup>+</sup>-pyrophosphatases are major determinants of plant tolerance to amine fungicides.</p>