Epidermis is a pivotal site of at least four secondary metabolic pathways in Catharanthus roseus aerial organs

Mahroug, Samira; Courdavault, Vincent; Thiersault, Martine; St-Pierre, Benoit; Burlat, Vincent

doi:10.1007/s00425-005-0167-y

Cited by 68 publications

(68 citation statements)

References 47 publications

(55 reference statements)

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“…Categorically, idioblasts are individual cells with a different chemical composition from that of the surrounding cells; they vary in shape and are classified according to the substances that they synthesize (Castro and Demarco, 2008) and part of the bioactive compound precursor synthesis and storage may exist within the idioblast vacuoles (Mahroug et al, 2006). Several classes of phenolic compounds are synthesized and stored in a large central vacuole or multiple cells of varying sizes present in the idioblastic cytoplasm.…”

Section: Discussionmentioning

confidence: 99%

Secretory structures in Cochlospermum regium (Schrank) Pilg. (Bixaceae): Distribution and histochemistry

Filho¹,

Ferreira²,

Vasconcelos³

et al. 2014

J. Med. Plants Res.

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Section: Discussionmentioning

confidence: 99%

Secretory structures in Cochlospermum regium (Schrank) Pilg. (Bixaceae): Distribution and histochemistry

Filho¹,

Ferreira²,

Vasconcelos³

et al. 2014

J. Med. Plants Res.

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“…In most plant species, the epidermis also plays specialized roles in the biosynthesis and accumulation of a wide range of secondary metabolites, including flavonoids, terpenes, and alkaloids, as illustrated in recent localization studies (Dudareva et al, 2005;Kutchan, 2005;Murata and De Luca, 2005;Mahroug et al, 2006). In the case of Catharanthus roseus (Madagascar periwinkle), leaf epidermal cells appear to be specialized for monoterpenoid indole alkaloid (MIA) biosynthesis (St-Pierre et al, 1999;Murata and De Luca, 2005;Mahroug et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

“…In the case of Catharanthus roseus (Madagascar periwinkle), leaf epidermal cells appear to be specialized for monoterpenoid indole alkaloid (MIA) biosynthesis (St-Pierre et al, 1999;Murata and De Luca, 2005;Mahroug et al, 2006). This medicinal plant is the only commercial source of the valuable dimeric MIAs with anticancer activities vinblastine and vincristine, which are derived from combining vindoline and catharanthine monomers.…”

Section: Introductionmentioning

confidence: 99%

The Leaf Epidermome ofCatharanthus roseusReveals Its Biochemical Specialization

et al. 2008

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Catharanthus roseus is the sole commercial source of the monoterpenoid indole alkaloids (MIAs), vindoline and catharanthine, components of the commercially important anticancer dimers, vinblastine and vincristine. Carborundum abrasion technique was used to extract leaf epidermis-enriched mRNA, thus sampling the epidermome, or complement, of proteins expressed in the leaf epidermis. Random sequencing of the derived cDNA library established 3655 unique ESTs, composed of 1142 clusters and 2513 singletons. Virtually all known MIA pathway genes were found in this remarkable set of ESTs, while only four known genes were found in the publicly available Catharanthus EST data set. Several novel MIA pathway candidate genes were identified, as demonstrated by the cloning and functional characterization of loganic acid O-methyltransferase involved in secologanin biosynthesis. The pathways for triterpene biosynthesis were also identified, and metabolite analysis showed that oleanane-type triterpenes were localized exclusively to the cuticular wax layer. The pathways for flavonoid and very-longchain fatty acid biosynthesis were also located in this cell type. The results illuminate the biochemical specialization of Catharanthus leaf epidermis for the production of multiple classes of metabolites. The value and versatility of this EST data set for biochemical and biological analysis of leaf epidermal cells is also discussed.

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“…TIA metabolism in C. roseus involves more than 20 enzymatic steps and occurs in various cell types, starting from internal phloem-associated parenchyma cells (IPAP cells) through epidermal cells (ECs) to both idioblast cells (ICs) and laticifer cells (LCs) where vindoline and other TIAs are believed to be accumulated (10)(11)(12). Cell type-specific localization of TIA metabolic pathways has been primarily inferred indirectly from the results of in situ RNA hybridization and immunocytochemical localization of the pathway enzymes (13).…”

mentioning

confidence: 99%

Cell-specific localization of alkaloids in Catharanthus roseus stem tissue measured with Imaging MS and Single-cell MS

Yamamoto

Takahashi

Mizuno

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

111

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Catharanthus roseus (L.) G. Don is a medicinal plant well known for producing antitumor drugs such as vinblastine and vincristine, which are classified as terpenoid indole alkaloids (TIAs). The TIA metabolic pathway in C. roseus has been extensively studied. However, the localization of TIA intermediates at the cellular level has not been demonstrated directly. In the present study, the metabolic pathway of TIA in C. roseus was studied with two forefront metabolomic techniques, that is, Imaging mass spectrometry (MS) and live Single-cell MS, to elucidate cell-specific TIA localization in the stem tissue. Imaging MS indicated that most TIAs localize in the idioblast and laticifer cells, which emit blue fluorescence under UV excitation. Single-cell MS was applied to four different kinds of cells [idioblast (specialized parenchyma cell), laticifer, parenchyma, and epidermal cells] in the stem longitudinal section. Principal component analysis of Imaging MS and Single-cell MS spectra of these cells showed that similar alkaloids accumulate in both idioblast cell and laticifer cell. From MS/MS analysis of Single-cell MS spectra, catharanthine, ajmalicine, and strictosidine were found in both cell types in C. roseus stem tissue, where serpentine was also accumulated. Based on these data, we discuss the significance of TIA synthesis and accumulation in the idioblast and laticifer cells of C. roseus stem tissue. A lkaloids constitute one of the largest groups of specialized metabolites, many of which have biological functions that are indispensable, not only for plants themselves but also for human health. Approximately 20% of plant species are known to contain alkaloids (1). The significant value of alkaloids as medicines or luxury items in human life has attracted widespread interest from researchers in a range of scientific fields. These researchers have extensively studied how plant-specialized metabolites are produced at cellular and tissue levels (2). The reports indicate that biosynthetic pathways of plant specialized metabolites often involve multiple cell types that are biochemically and morphologically distinct (3,4

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Epidermis is a pivotal site of at least four secondary metabolic pathways in Catharanthus roseus aerial organs

Cited by 68 publications

References 47 publications

Secretory structures in Cochlospermum regium (Schrank) Pilg. (Bixaceae): Distribution and histochemistry

Secretory structures in Cochlospermum regium (Schrank) Pilg. (Bixaceae): Distribution and histochemistry

The Leaf Epidermome ofCatharanthus roseusReveals Its Biochemical Specialization

Cell-specific localization of alkaloids in Catharanthus roseus stem tissue measured with Imaging MS and Single-cell MS

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