Light activation of vindoline biosynthesis does not require cytomorphogenesis in Catharanthus roseus seedlings.

Upon illumination, the cotyledons of Catharanthus roseus seedlings readily synthesise vindoline from late biosynthetic intermediates, which accumulate in etiolated seedlings. The cellular localisation of tryptophan decarboxylase (TDC) and desacetoxyvindoline 4-hydroxylase (D4H), which catalyse the first and penultimate reactions of vindoline biosynthesis, was identified by immunocytochemistry in developing seedlings. The expression of TDC was restricted to the upper epidermis of cotyledons, whereas that of D4H was confined to laticifer cells. Light exposure of etiolated seedlings significantly induced D4H enzyme activity without changing the steady-state levels of D4H immunoreactive protein or modifying the cellular distribution of D4H expression in dark-grown seedlings. These results suggest that the early and late stages of vindoline biosynthesis occupy different cellular compartments, even in the early phases of etiolated seedling development. The role of light in activating the late stages of vindoline biosynthesis does not, therefore, seem to be related to the formation of the laticifer and idioblast cell types. It is concluded that light is not required for formation of these cell types, whereas regulatory factors, restricted to idioblasts and laticifers, may respond to light to activate localised expression of the late stages of vindoline biosynthesis.

Jasmonate modulates development- and light-regulated alkaloid biosynthesis in Catharanthus roseus.

Methyl jasmonate, a chemical inducer of secondary metabolism, has been shown to promote vindoline biosynthesis in developing seedlings, as a result of induction of tryptophan decarboxylase (TDC) and desacetylvindoline 4-hydroxylase (D4H). The present studies suggest that jasmonate-based induction of TDC and D4H activities involves modulation of transcriptional, post-transcriptional and post-translational controls. The effects of jasmonate on both enzymes were transient with maximum TDC activity appearing 12 h earlier than that of D4H. Jasmonate treatment of etiolated seedlings neither enhanced TDC activity nor could it replace the light requirement for D4H induction. Jasmonate, therefore, appears to modulate events which are already triggered by developmental and environmental specific controls. Salicylic acid, another chemical inducer of secondary metabolism, was ineffective in activating either TDC or D4H under the experimental conditions used.