Long-sized oligogalacturonides inhibit, whereas spermidine enhances, xylogenesis in tobacco leaf explants

Long-sized oligogalacturonides (OGs) are plant cell wall fragments involved in defence responses and developmental processes. A hormone/OG interaction in the control of different organogenic processes is known. However, hormones also modulate polyamine (PA) effects on organogenesis. Furthermore, OGs are known to affect mitotic activity leading to specific morphogenic events, and PAs are known to affect mitotic activity leading to xylogenesis. Thus, it may be reasonable to assume that OGs and PAs affect mitotic activity in the same cell types, and in the same hormone-induced morphogenic processes, e.g., xylogenesis. To gain further insight into this aspect, the effects of OGs, and of putrescine (Put) and spermidine (Spd), on auxin (indoleacetic acid, IAA) plus benzyladenine (BA)-induced morphogenesis in tobacco leaf explants were investigated histologically. The effect of PA biosynthetic inhibitors in the culture medium was also monitored, as well as the combined application of the inhibitor with the corresponding PA. Results show that vascular mitoses consistently occurred in the control (IAA+BA-treated) explants, leading exclusively to xylogenic nodule formation. The application of OGs resulted in an inhibition of vascular mitoses, and into a strong reduction of vascular nodule formation. By contrast, Spd enhanced both vascular mitoses and nodule formation, and Put was less effective than Spd on both events. Taken together, the results reveal a new biological activity of OGs and Spd in morphogenesis, obtained under the same hormonal conditions, and in the same tissue (i.e., the vascular parenchyma), namely the inhibition of xylogenesis by OGs, and its promotion by Spd. The fact that the effects of Spd and OGs on this morphogenic event may involve a different relationship with auxin is discussed.