More than a Catharanthus plant: A multicellular and pluri-organelle alkaloid-producing factory

Plants represent a huge reservoir of natural products. A broad series of these compounds now find application for human health. In this respect, the monoterpene indole alkaloids (MIAs), particularly from Madagascar periwinkle, are a prominent example of plant specialized metabolites with an importan...

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Bibliographic Details
Published in:Current opinion in plant biology 2022-06, Vol.67, p.102200-102200, Article 102200
Main Authors: Kulagina, Natalja, Méteignier, Louis-Valentin, Papon, Nicolas, O'Connor, Sarah Ellen, Courdavault, Vincent
Format: Article
Language:English
Subjects:
Cathranthus roseus
Life Sciences
Localization
Monoterpene indole alkaloids
Plant specialized metabolism
Transport
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Summary:Plants represent a huge reservoir of natural products. A broad series of these compounds now find application for human health. In this respect, the monoterpene indole alkaloids (MIAs), particularly from Madagascar periwinkle, are a prominent example of plant specialized metabolites with an important therapeutic potential. However, the supply of MIA drugs has always been a challenge since the low-yield accumulation in planta. This mainly results from the complex architecture of the MIA biosynthetic pathway that involves several organs, tissue types and subcellular organelles. Here, we describe the most recent advances towards the elucidation of this pathway route as well as its spatial organization in planta. Besides allowing a better understanding of the MIA biosynthetic flux in the whole plant, such knowledge will also probably pave the way for the development of metabolic engineering strategies to sustain the MIA supply. [Display omitted] •Plant specialized metabolism contributes to their adaptation and defenses.•Catharanthus roseus produces in low quantities therapeutic monoterpene indole alkaloids (MIAs), including anticancer drugs.•To date, several missing enzymes downstream strictosidine have been identified, as well as specific transporters.•C. roseus spatial architecture involves at least three tissue types and eight organelles.•Heterologous production offers an alternative approach, which requires an exhaustive view of MIA metabolic fluxes.
ISSN:1369-5266
1879-0356
DOI:10.1016/j.pbi.2022.102200