Maria Angeles Pedreño Garcia - Academia.edu (original) (raw)
Papers by Maria Angeles Pedreño Garcia
Synergistic effect of methyljasmonate and cyclodextrin on stilbene biosynthesis pathway gene expr... more Synergistic effect of methyljasmonate and cyclodextrin on stilbene biosynthesis pathway gene expression and resveratrol production in Monastrell grapevine cell cultures
Biotechnology Progress, 2017
This article has been accepted for publication and undergone full peer review but has not been th... more This article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process which may lead to differences between this version and the Version of Record. Please cite this article as
Plant Foods for Human Nutrition, 2012
trans-Resveratrol (trans-R) has been reported to be a potential cancer chemopreventive agent. Alt... more trans-Resveratrol (trans-R) has been reported to be a potential cancer chemopreventive agent. Although its cytotoxic activity against different cancer cell lines has been tested, its effect on human acute leukemia cell lines has scarcely been investigated, and only a few in vitro studies were performed using human breast epithelial cell lines. Due to its potential value for human health, demand for trans-R has rapidly increased, and new biotechnological strategies to obtain it from natural edible sources have been developed. Thus, grapevine cell cultures represent a reliable system of trans-R production since they biosynthesize trans-R constitutively or in response to elicitation. In addition, there are no studies deepen on the inhibitory effect of trans-R, produced by elicited grapevine cell cultures, on growth of human tumor cell lines. In this work, the effect of trans-R extracted from the culture medium, after elicitation of grapevine cell cultures, was tested on two human acute lymphocytic and monocytic leukemia cell lines, and one human breast cancer cell line. The effect of trans-R on cell proliferation was not only dose-and time-dependent but also cell type-dependent, as seen from the different degrees of susceptibility of cancer cell lines tested. As regards the effect of trans-R on cell cycle distribution, low trans-R concentrations increased cells in the S phase whereas a high trans-R concentration increased G 0 /G 1 phase in all cell lines. Perturbation of the cell cycle at low trans-R concentrations did not correlate with the induction of cell death, whereas a high trans-R concentration, cell proliferation decreased as a result of increasing apoptosis in the three cell lines. In leukemia cells, trans-R up-regulated the expression of caspase-3 while trans-R-induced apoptosis in breast cells occur through a caspase-3-independent mechanism mediated by a downregulation of Bcl-2.
Plant Physiology and Biochemistry, 2013
The use of cyclic oligosaccharides like cyclodextrins (CDs), alone or combined with methyl jasmon... more The use of cyclic oligosaccharides like cyclodextrins (CDs), alone or combined with methyl jasmonate (MJ), as elicitors has proved very effective in stimulating the production of trans-resveratrol (trans-R) in Vitis vinifera suspension-cultured cells (SCC). Since elicitors can be used to increase trans-R production, understanding the molecular mechanisms involved would improve the management of grapevine cells as factories of this compound. The results obtained in this study provide evidence for a role of Ca 2þ in mediating elicitor-induced trans-R production in grapevine SCC. The Ca 2þ elevation was promoted by an uptake of Ca 2þ from the extracellular medium, and by Ca 2þ mobilization from intracellular organelles. Moreover, protein phosphorylation/dephosphorylation events seem to be involved in the signal transduction pathways triggered by CDs separately or in combination with MJ since trans-R production is dependent on both, the phosphorylation status of several proteins through mitogen-activated kinase pathway and the activity of tyrosine phosphatases. Our results also suggest that H 2 O 2 and NO participated in the production of trans-R triggered by both elicitors in grapevine SCC. Finally, a fast alkalinization of the extracellular medium is induced in the presence of CDs and/or MJ.
Pharmaceutical Biology, 2012
Catharanthus roseus (L.) G. Don (Apocynaceae) is a medicinal plant that produces more than 130 al... more Catharanthus roseus (L.) G. Don (Apocynaceae) is a medicinal plant that produces more than 130 alkaloids, with special attention given to the production of the anti-hypertensive monomeric indole alkaloids, serpentine and ajmalicine, and the antitumor dimeric alkaloids, vinblastine and vincristine. This study evaluated the cytotoxic activity of the indole alkaloid-enriched bioactive extract obtained from suspension cultured-cells of C. roseus elicited with methyl jasmonate (MJ) and cyclodextrins (CDs) in three cell lines: JURKAT E.6 human lymphocytic leukemia, THP-1 human monocytic leukemia and BL 1395 non-tumor human B-cell line. An indole alkaloid-enriched bioactive extract was obtained from C. roseus cell cultures elicited with MJ and CDs. The indole alkaloids were identified using an HPLC-diode array system coupled to a time-of-flight mass spectrometer using electrospray ionization (ESI) source. The cytotoxic assays were made using the colorimetric assay 2, 3-bis (2-methoxy-4-nitro-5-sulfophenyl)-S-[(phenylamino)carbonyl]-2 tetrazolium hydroxide (XTT). Four indole alkaloids were identified (catharanthine, ajmalicine, tabersonine and lochnericine) but only catharanthine and ajmalicine were quantified. The concentration of the indole alkaloid-enriched bioactive extract that inhibited cell growth by 50% was 211 and 210 ng/mL for the JURKAT E.6 and THP-1 cell lines, respectively. The results confirm that the powerful antitumor activity of this indole alkaloid-enriched bioactive extract is not due to the effect of a single compound but depends on the synergistic action of the four compounds identified.
BMC Research Notes, 2008
Background: Plant cell cultures have been shown as feasible systems for the production of seconda... more Background: Plant cell cultures have been shown as feasible systems for the production of secondary metabolites, being the elicitation with biotic or abiotic stimuli the most efficient strategy to increase the production of those metabolites. Vitaceae phytoalexins constitute a group of molecules belonging to the stilbene family which are derivatives of the trans-resveratrol structure and are produced by plants and cell cultures as a response to biotic and abiotic stresses. The potential benefits of resveratrol on human health have made it one of the most thoroughly studied phytochemical molecules. The aim of this study was to evaluate the elicitor effect of both cyclodextrin (CD) and methyljasmonate (MeJA) on grapevine cell cultures by carrying out a quantitative analysis of their role on resveratrol production and on the expression of stilbene biosynthetic genes in Vitis vinifera cv Monastrell albino cell suspension cultures. Findings: MeJA and CD significantly but transiently induced the expression of stilbene biosynthetic genes when independently used to treat grapevine cells. This expression correlated with resveratrol production in CD-treated cells but not in MeJA-treated cells, which growth was drastically affected. In the combined treatment of CD and MeJA cell growth was similarly affected, however resveratrol production was almost one order of magnitude higher, in correlation with maximum expression values for stilbene biosynthetic genes. Conclusion: The effect of MeJA on cell division combined with a true and strong elicitor like CD could be responsible for the observed synergistic effect of both compounds on resveratrol production and on the expression of genes in the stilbene pathway.
Biotechnology Letters, 2010
Silymarin (Sm) from the fruit of Silybum marianum is an isomeric mixture of pharmacologically act... more Silymarin (Sm) from the fruit of Silybum marianum is an isomeric mixture of pharmacologically active flavonolignans which are formed by oxidative coupling of taxifolin (Tx) and coniferyl alcohol (CA). Suspension cultures of this plant constitutively secrete small amounts of Sm into the extracellular medium. Production can be increased by inclusion of cyclodextrins (CDs) in cultures. Both hydroxylated (RHCD) and dimethylated (RMCD) CDs strongly induced prompt accumulation of CA in the medium followed by a late production of flavonolignans. Simultaneous addition of methyl jasmonate (MJ) and RMCD to cells did not significantly modify CA release or flavonolignan accumulation. Delayed addition of MJ to cultures subcultivated in medium containing RMCD markedly influenced Sm production by promoting conversion of the previously formed CA precursor.
![Research paper thumbnail of {"__content__"=>"Perfluorodecalins and Hexenol as Inducers of Secondary Metabolism in and Cell Cultures.", "i"=>[{"__content__"=>"Taxus media"}, {"__content__"=>"Vitis vinifera"}]}](https://attachments.academia-assets.com/98472490/thumbnails/1.jpg)
](Frontiers in plant science, 2018
Plant cell cultures constitute a potentially efficient and sustainable tool for the production of... more Plant cell cultures constitute a potentially efficient and sustainable tool for the production of high added-value bioactive compounds. However, due to the inherent restrictions in the expression of secondary metabolism, to date the yields obtained have generally been low. Plant cell culture elicitation can boost production, sometimes leading to dramatic improvements in yield, as well as providing insight into the target biosynthetic pathways and the regulation of the genes involved. Among the secondary compounds successfully being produced in biotechnological platforms are taxanes and -resveratrol (-R). In the current study, perfluorodecalins (PFDs) and hexenol (Hex) were tested for the first time with and cell cultures to explore their effect on plant cell growth and secondary metabolite production, either alone or combined with other elicitors already established as highly effective, such as methyl jasmonate (MeJa), coronatine (Coro) or randomly methylated β-cyclodextrins (β-CDs)...
PLoS ONE, 2014
The high effectiveness of cyclic oligosaccharides like cyclodextrins in the production of trans-r... more The high effectiveness of cyclic oligosaccharides like cyclodextrins in the production of trans-resveratrol in Vitis vinifera cell cultures is enhanced in the presence of methyl jasmonate. In order to dissect the basis of the interactions among the elicitation responses triggered by these two compounds, a transcriptional analysis of grapevine cell cultures treated with cyclodextrins and methyl jasmonate separately or in combination was carried out. The results showed that the activation of genes encoding enzymes from phenylpropanoid and stilbene biosynthesis induced by cyclodextrins alone was partially enhanced in the presence of methyl jasmonate, which correlated with their effects on trans-resveratrol production. In addition, protein translation and cell cycle regulation were more highly repressed in cells treated with cyclodextrins than in those treated with methyl jasmonate, and this response was enhanced in the combined treatment. Ethylene signalling was activated by all treatments, while jasmonate signalling and salicylic acid conjugation were activated only in the presence of methyl jasmonate and cyclodextrins, respectively. Moreover, the combined treatment resulted in a crosstalk between the signalling cascades activated by cyclodextrins and methyl jasmonate, which, in turn, provoked the activation of additional regulatory pathways involving the up-regulation of MYB15, NAC and WRKY transcription factors, protein kinases and calcium signal transducers. All these results suggest that both elicitors cause an activation of the secondary metabolism in detriment of basic cell processes like the primary metabolism or cell division. Crosstalk between cyclodextrins and methyl jasmonateinduced signalling provokes an intensification of these responses resulting in a greater trans-resveratrol production.
Biotechnology Advances, 2014
Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer acti... more Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer activity. Biotechnological systems for taxol production based on cell cultures of Taxus spp. have been developed, but the growing commercial demand for taxol and its precursors requires the optimization of these procedures. In order to increase the biotechnological production of taxol and related taxanes in Taxus spp. cell cultures, it is necessary not only to take an empirical approach that strives to optimize input factors (cell line selection, culture conditions, elicitation, up-scaling, etc.) and output factors (growth, production, yields, etc.), but also to carry out molecular biological studies. The latter can provide valuable insight into how the enhancement of taxane biosynthesis and accumulation affects metabolic profiles and gene expression in Taxus spp. cell cultures. Several rational approaches have focused on studying the transcriptomic profiles of key genes in the taxol biosynthetic pathway in Taxus spp. cell cultures treated with elicitors such as methyl jasmonate, coronatine and cyclodextrins in relation with the taxane pattern, production and excretion to the culture medium. These studies have provided new insights into the taxol biosynthetic pathway and its regulation. Additionally, identifying genes with low levels of expression even in the presence of elicitors, together with metabolomics studies, has shed light on the limiting steps in taxol biosynthesis and could help define suitable metabolic targets for engineering with the main aim of obtaining highly productive Taxus cultured cells. In this review, we have summarized the latest endeavors to enhance the molecular understanding of the action mechanism of elicitors in Taxus spp. cell cultures. Developments in the ongoing search for new and more effective elicitation treatments and the application of metabolic engineering to design new transgenic cell lines of Taxus with an improved capacity for taxane production are described.
Biotechnology Advances, 2014
Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer acti... more Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer activity. Biotechnological systems for taxol production based on cell cultures of Taxus spp. have been developed, but the growing commercial demand for taxol and its precursors requires the optimization of these procedures. In order to increase the biotechnological production of taxol and related taxanes in Taxus spp. cell cultures, it is necessary not only to take an empirical approach that strives to optimize in-put factors (cell line selection, culture conditions, elicitation, up-scaling, etc.) and out-put factors (growth, production, yields, etc.), but also to carry out molecular biological studies. The latter can provide valuable insight into how the enhancement of taxane biosynthesis and accumulation affects metabolic profiles and gene expression in Taxus spp. cell cultures. Several rational approaches have focused on studying the transcriptomic profiles of key genes in the taxol biosynthetic pathway in Taxus spp. cell cultures treated with elicitors such as methyl jasmonate, coronatine and cyclodextrins in relation with the taxane pattern, production and excretion to the culture medium. These studies have provided new insights into the taxol biosynthetic pathway and its regulation. Additionally, identifying genes with low levels of expression even in the presence of elicitors, together with metabolomics studies, has shed light on the limiting steps in taxol biosynthesis and could help define suitable metabolic targets for engineering with the main aim of obtaining highly productive Taxus cultured cells. In this review, we have summarized the latest endeavors to enhance the molecular understanding of the action mechanism of elicitors in Taxus spp. cell cultures. Developments in the ongoing search for new and more effective elicitation treatments and the application of metabolic engineering to design new transgenic cell lines of Taxus with an improved capacity for taxane production are described.
Synergistic effect of methyljasmonate and cyclodextrin on stilbene biosynthesis pathway gene expr... more Synergistic effect of methyljasmonate and cyclodextrin on stilbene biosynthesis pathway gene expression and resveratrol production in Monastrell grapevine cell cultures
Biotechnology Progress, 2017
This article has been accepted for publication and undergone full peer review but has not been th... more This article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process which may lead to differences between this version and the Version of Record. Please cite this article as
Plant Foods for Human Nutrition, 2012
trans-Resveratrol (trans-R) has been reported to be a potential cancer chemopreventive agent. Alt... more trans-Resveratrol (trans-R) has been reported to be a potential cancer chemopreventive agent. Although its cytotoxic activity against different cancer cell lines has been tested, its effect on human acute leukemia cell lines has scarcely been investigated, and only a few in vitro studies were performed using human breast epithelial cell lines. Due to its potential value for human health, demand for trans-R has rapidly increased, and new biotechnological strategies to obtain it from natural edible sources have been developed. Thus, grapevine cell cultures represent a reliable system of trans-R production since they biosynthesize trans-R constitutively or in response to elicitation. In addition, there are no studies deepen on the inhibitory effect of trans-R, produced by elicited grapevine cell cultures, on growth of human tumor cell lines. In this work, the effect of trans-R extracted from the culture medium, after elicitation of grapevine cell cultures, was tested on two human acute lymphocytic and monocytic leukemia cell lines, and one human breast cancer cell line. The effect of trans-R on cell proliferation was not only dose-and time-dependent but also cell type-dependent, as seen from the different degrees of susceptibility of cancer cell lines tested. As regards the effect of trans-R on cell cycle distribution, low trans-R concentrations increased cells in the S phase whereas a high trans-R concentration increased G 0 /G 1 phase in all cell lines. Perturbation of the cell cycle at low trans-R concentrations did not correlate with the induction of cell death, whereas a high trans-R concentration, cell proliferation decreased as a result of increasing apoptosis in the three cell lines. In leukemia cells, trans-R up-regulated the expression of caspase-3 while trans-R-induced apoptosis in breast cells occur through a caspase-3-independent mechanism mediated by a downregulation of Bcl-2.
Plant Physiology and Biochemistry, 2013
The use of cyclic oligosaccharides like cyclodextrins (CDs), alone or combined with methyl jasmon... more The use of cyclic oligosaccharides like cyclodextrins (CDs), alone or combined with methyl jasmonate (MJ), as elicitors has proved very effective in stimulating the production of trans-resveratrol (trans-R) in Vitis vinifera suspension-cultured cells (SCC). Since elicitors can be used to increase trans-R production, understanding the molecular mechanisms involved would improve the management of grapevine cells as factories of this compound. The results obtained in this study provide evidence for a role of Ca 2þ in mediating elicitor-induced trans-R production in grapevine SCC. The Ca 2þ elevation was promoted by an uptake of Ca 2þ from the extracellular medium, and by Ca 2þ mobilization from intracellular organelles. Moreover, protein phosphorylation/dephosphorylation events seem to be involved in the signal transduction pathways triggered by CDs separately or in combination with MJ since trans-R production is dependent on both, the phosphorylation status of several proteins through mitogen-activated kinase pathway and the activity of tyrosine phosphatases. Our results also suggest that H 2 O 2 and NO participated in the production of trans-R triggered by both elicitors in grapevine SCC. Finally, a fast alkalinization of the extracellular medium is induced in the presence of CDs and/or MJ.
Pharmaceutical Biology, 2012
Catharanthus roseus (L.) G. Don (Apocynaceae) is a medicinal plant that produces more than 130 al... more Catharanthus roseus (L.) G. Don (Apocynaceae) is a medicinal plant that produces more than 130 alkaloids, with special attention given to the production of the anti-hypertensive monomeric indole alkaloids, serpentine and ajmalicine, and the antitumor dimeric alkaloids, vinblastine and vincristine. This study evaluated the cytotoxic activity of the indole alkaloid-enriched bioactive extract obtained from suspension cultured-cells of C. roseus elicited with methyl jasmonate (MJ) and cyclodextrins (CDs) in three cell lines: JURKAT E.6 human lymphocytic leukemia, THP-1 human monocytic leukemia and BL 1395 non-tumor human B-cell line. An indole alkaloid-enriched bioactive extract was obtained from C. roseus cell cultures elicited with MJ and CDs. The indole alkaloids were identified using an HPLC-diode array system coupled to a time-of-flight mass spectrometer using electrospray ionization (ESI) source. The cytotoxic assays were made using the colorimetric assay 2, 3-bis (2-methoxy-4-nitro-5-sulfophenyl)-S-[(phenylamino)carbonyl]-2 tetrazolium hydroxide (XTT). Four indole alkaloids were identified (catharanthine, ajmalicine, tabersonine and lochnericine) but only catharanthine and ajmalicine were quantified. The concentration of the indole alkaloid-enriched bioactive extract that inhibited cell growth by 50% was 211 and 210 ng/mL for the JURKAT E.6 and THP-1 cell lines, respectively. The results confirm that the powerful antitumor activity of this indole alkaloid-enriched bioactive extract is not due to the effect of a single compound but depends on the synergistic action of the four compounds identified.
BMC Research Notes, 2008
Background: Plant cell cultures have been shown as feasible systems for the production of seconda... more Background: Plant cell cultures have been shown as feasible systems for the production of secondary metabolites, being the elicitation with biotic or abiotic stimuli the most efficient strategy to increase the production of those metabolites. Vitaceae phytoalexins constitute a group of molecules belonging to the stilbene family which are derivatives of the trans-resveratrol structure and are produced by plants and cell cultures as a response to biotic and abiotic stresses. The potential benefits of resveratrol on human health have made it one of the most thoroughly studied phytochemical molecules. The aim of this study was to evaluate the elicitor effect of both cyclodextrin (CD) and methyljasmonate (MeJA) on grapevine cell cultures by carrying out a quantitative analysis of their role on resveratrol production and on the expression of stilbene biosynthetic genes in Vitis vinifera cv Monastrell albino cell suspension cultures. Findings: MeJA and CD significantly but transiently induced the expression of stilbene biosynthetic genes when independently used to treat grapevine cells. This expression correlated with resveratrol production in CD-treated cells but not in MeJA-treated cells, which growth was drastically affected. In the combined treatment of CD and MeJA cell growth was similarly affected, however resveratrol production was almost one order of magnitude higher, in correlation with maximum expression values for stilbene biosynthetic genes. Conclusion: The effect of MeJA on cell division combined with a true and strong elicitor like CD could be responsible for the observed synergistic effect of both compounds on resveratrol production and on the expression of genes in the stilbene pathway.
Biotechnology Letters, 2010
Silymarin (Sm) from the fruit of Silybum marianum is an isomeric mixture of pharmacologically act... more Silymarin (Sm) from the fruit of Silybum marianum is an isomeric mixture of pharmacologically active flavonolignans which are formed by oxidative coupling of taxifolin (Tx) and coniferyl alcohol (CA). Suspension cultures of this plant constitutively secrete small amounts of Sm into the extracellular medium. Production can be increased by inclusion of cyclodextrins (CDs) in cultures. Both hydroxylated (RHCD) and dimethylated (RMCD) CDs strongly induced prompt accumulation of CA in the medium followed by a late production of flavonolignans. Simultaneous addition of methyl jasmonate (MJ) and RMCD to cells did not significantly modify CA release or flavonolignan accumulation. Delayed addition of MJ to cultures subcultivated in medium containing RMCD markedly influenced Sm production by promoting conversion of the previously formed CA precursor.
Frontiers in plant science, 2018
Plant cell cultures constitute a potentially efficient and sustainable tool for the production of... more Plant cell cultures constitute a potentially efficient and sustainable tool for the production of high added-value bioactive compounds. However, due to the inherent restrictions in the expression of secondary metabolism, to date the yields obtained have generally been low. Plant cell culture elicitation can boost production, sometimes leading to dramatic improvements in yield, as well as providing insight into the target biosynthetic pathways and the regulation of the genes involved. Among the secondary compounds successfully being produced in biotechnological platforms are taxanes and -resveratrol (-R). In the current study, perfluorodecalins (PFDs) and hexenol (Hex) were tested for the first time with and cell cultures to explore their effect on plant cell growth and secondary metabolite production, either alone or combined with other elicitors already established as highly effective, such as methyl jasmonate (MeJa), coronatine (Coro) or randomly methylated β-cyclodextrins (β-CDs)...
PLoS ONE, 2014
The high effectiveness of cyclic oligosaccharides like cyclodextrins in the production of trans-r... more The high effectiveness of cyclic oligosaccharides like cyclodextrins in the production of trans-resveratrol in Vitis vinifera cell cultures is enhanced in the presence of methyl jasmonate. In order to dissect the basis of the interactions among the elicitation responses triggered by these two compounds, a transcriptional analysis of grapevine cell cultures treated with cyclodextrins and methyl jasmonate separately or in combination was carried out. The results showed that the activation of genes encoding enzymes from phenylpropanoid and stilbene biosynthesis induced by cyclodextrins alone was partially enhanced in the presence of methyl jasmonate, which correlated with their effects on trans-resveratrol production. In addition, protein translation and cell cycle regulation were more highly repressed in cells treated with cyclodextrins than in those treated with methyl jasmonate, and this response was enhanced in the combined treatment. Ethylene signalling was activated by all treatments, while jasmonate signalling and salicylic acid conjugation were activated only in the presence of methyl jasmonate and cyclodextrins, respectively. Moreover, the combined treatment resulted in a crosstalk between the signalling cascades activated by cyclodextrins and methyl jasmonate, which, in turn, provoked the activation of additional regulatory pathways involving the up-regulation of MYB15, NAC and WRKY transcription factors, protein kinases and calcium signal transducers. All these results suggest that both elicitors cause an activation of the secondary metabolism in detriment of basic cell processes like the primary metabolism or cell division. Crosstalk between cyclodextrins and methyl jasmonateinduced signalling provokes an intensification of these responses resulting in a greater trans-resveratrol production.
Biotechnology Advances, 2014
Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer acti... more Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer activity. Biotechnological systems for taxol production based on cell cultures of Taxus spp. have been developed, but the growing commercial demand for taxol and its precursors requires the optimization of these procedures. In order to increase the biotechnological production of taxol and related taxanes in Taxus spp. cell cultures, it is necessary not only to take an empirical approach that strives to optimize input factors (cell line selection, culture conditions, elicitation, up-scaling, etc.) and output factors (growth, production, yields, etc.), but also to carry out molecular biological studies. The latter can provide valuable insight into how the enhancement of taxane biosynthesis and accumulation affects metabolic profiles and gene expression in Taxus spp. cell cultures. Several rational approaches have focused on studying the transcriptomic profiles of key genes in the taxol biosynthetic pathway in Taxus spp. cell cultures treated with elicitors such as methyl jasmonate, coronatine and cyclodextrins in relation with the taxane pattern, production and excretion to the culture medium. These studies have provided new insights into the taxol biosynthetic pathway and its regulation. Additionally, identifying genes with low levels of expression even in the presence of elicitors, together with metabolomics studies, has shed light on the limiting steps in taxol biosynthesis and could help define suitable metabolic targets for engineering with the main aim of obtaining highly productive Taxus cultured cells. In this review, we have summarized the latest endeavors to enhance the molecular understanding of the action mechanism of elicitors in Taxus spp. cell cultures. Developments in the ongoing search for new and more effective elicitation treatments and the application of metabolic engineering to design new transgenic cell lines of Taxus with an improved capacity for taxane production are described.
Biotechnology Advances, 2014
Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer acti... more Taxol is a complex diterpene alkaloid scarcely produced in nature and with a high anticancer activity. Biotechnological systems for taxol production based on cell cultures of Taxus spp. have been developed, but the growing commercial demand for taxol and its precursors requires the optimization of these procedures. In order to increase the biotechnological production of taxol and related taxanes in Taxus spp. cell cultures, it is necessary not only to take an empirical approach that strives to optimize in-put factors (cell line selection, culture conditions, elicitation, up-scaling, etc.) and out-put factors (growth, production, yields, etc.), but also to carry out molecular biological studies. The latter can provide valuable insight into how the enhancement of taxane biosynthesis and accumulation affects metabolic profiles and gene expression in Taxus spp. cell cultures. Several rational approaches have focused on studying the transcriptomic profiles of key genes in the taxol biosynthetic pathway in Taxus spp. cell cultures treated with elicitors such as methyl jasmonate, coronatine and cyclodextrins in relation with the taxane pattern, production and excretion to the culture medium. These studies have provided new insights into the taxol biosynthetic pathway and its regulation. Additionally, identifying genes with low levels of expression even in the presence of elicitors, together with metabolomics studies, has shed light on the limiting steps in taxol biosynthesis and could help define suitable metabolic targets for engineering with the main aim of obtaining highly productive Taxus cultured cells. In this review, we have summarized the latest endeavors to enhance the molecular understanding of the action mechanism of elicitors in Taxus spp. cell cultures. Developments in the ongoing search for new and more effective elicitation treatments and the application of metabolic engineering to design new transgenic cell lines of Taxus with an improved capacity for taxane production are described.