It is known that the concentration of dinucleoside polyphosphates (NpnN's) in cells increases under stress and that adverse environmental factors induce biosynthesis of phenylpropanoids, which protect the plant against stress. Previously, we showed that purine NpnN's such as Ap3A and Ap4A induce both the activity of enzymes of the phenylpropanoid pathway and the expression of relevant genes in Arabidopsis seedlings. Moreover, we showed that Ap3A induced stilbene biosynthesis in Vitis vinifera cv. Monastrell suspension cultured cells. Data presented in this paper show that pyrimidine-containing NpnN's also modify the biosynthesis of stilbenes, affecting the transcript level of genes encoding key enzymes of the phenylpropanoid pathway and of these, Up4U caused the most effective accumulation of trans-resveratrol in the culture media. Similar effect was caused by Ap3A and Gp3G. Other pyrimidine NpnN's, such as Cp3C, Cp4C, and Ap4C, strongly inhibited the biosynthesis of stilbenes, but markedly (6- to 8-fold) induced the expression of the cinnamoyl-CoA reductase gene that controls lignin biosynthesis. Purine counterparts also clearly induced biosynthesis of trans-resveratrol and trans-piceid, but only slightly induced the expression of genes involved in lignin biosynthesis. In cells, Up3U caused a greater accumulation of trans-resveratrol and trans-piceid than did Up4U. Each of the NpnN's studied induced expression of the gene encoding the resveratrol transporter VvABCG44, which operates within the Vitis vinifera cell membrane. AMP, GMP, UMP, and CMP, potential products of NpnN degradation, did not affect the accumulation of stilbenes. The results obtained strongly support that NpnN's play a role as signaling molecules in plants.
Keywords: Cytosine-containing dinucleotides; Signaling molecule; Suspension cultured cells; Vitis vinifera cv. Monastrell; VvABCG44 transporter; trans-Piceid; trans-Resveratrol.
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