真菌二萜环化酶的研究进展

二萜类化合物广泛存在于植物和真菌中,是一类具有重要商业价值的天然产物。二萜环化酶作为催化牻牛儿牻牛儿焦磷酸(geranylgeranyl diphosphate,GGPP)形成二萜的关键生物合成酶,在不同生物中的特异性决定了二萜化合物的结构多样性和生物活性多样性。对不同物种中二萜环化酶基因的分离、克隆和表达特征的分析有利于二萜类化合物的生物合成及调控研究。相比植物,真菌二萜化合物和二萜环化酶的研究刚刚起步。本文综述了近几年真菌二萜环化酶的研究进展,重点叙述了真菌二萜化合物的生物合成途径、二萜环化酶的特征及其克隆策略,并对二萜环化酶的代谢工程作了简要概述。     

Diterpene resin acid biosynthesis in loblolly pine (Pinus taeda): functional characterization of abietadiene/levopimaradiene synthase (PtTPS-LAS) cDNA and subcellular targeting of PtTPS-LAS and abietadienol/abietadienal oxidase (PtAO, CYP720B1)

Diterpene resin acids are prominent defense compounds against insect pests and pathogens in conifers. Biochemical and molecular analyses in grand fir (Abies grandis), Norway spruce (Picea abies), and loblolly pine (Pinus taeda) have identified two classes of genes and enzymes that generate much of the structural diversity of terpenoid defense compounds: The terpenoid synthases (TPS) and cytochrome P450 monooxgenases (P450). Using a single substrate, geranylgeranyl diphosphate, families of single-product and multi-product diterpene synthases generate an array of cyclic diterpene olefins. These diterpenes are converted to diterpene resin acids by activity of one or more P450 enzymes. A few conifer diterpene synthases have previously been cloned and characterized in grand fir and in Norway spruce. We have also previously shown that the loblolly pine P450 abietadienol/abietadienal oxidase (PtAO) catalyzes multiple oxidations of several diterpene alcohols and aldehydes. Conifer diterpene synthases are thought to function in plastids while P450s can also be localized to plastids or to the endoplasmic reticulum (ER). Here, we show that a loblolly pine cDNA (PtTPS-LAS) encodes a typical multi-product conifer diterpene synthase that forms levopimaradiene, abietadiene, palustradiene, and neoabietadiene similar to the grand fir abietadiene synthase and Norway spruce levopimaradiene/abietadiene synthase. Subcellular targeting of PtTPS-LAS and PtAO to plastids and ER, respectively, was shown with green fluorescent fusion protein expression in tobacco cells. These data suggest that enzymes for conifer diterpene resin acid biosynthesis are localized to at least two different subcellular compartments, plastids and ER, requiring efficient transport of intermediates and secretion of diterpene resin acids into the extracelluar space.     

Recent advances regarding diterpene cyclase genes in higher plants and fungi

Cyclic diterpenoids are commonly biosynthesized from geranylgeranyl diphosphate (GGDP) through the formation of carbon skeletons by specific cyclases and subsequent chemical modifications, such as oxidation, reduction, methylation, and glucosidation. A variety of diterpenoids are produced in higher plants and fungi. Rice produces four classes of diterpene phytoalexins, phytocassanes A to E, oryzalexins A to F, oryzalexin S, and momilactones A and B. The six diterpene cyclase genes involved in the biosynthesis of these phytoalexins were identified and characterized. Fusicoccin A was produced by the phytopathogenic Phomopsis amygdali and served as a plant H(+)-ATPase activator. A PaFS, encoding a fungal diterpene synthase responsible for fusicoccin biosynthesis, was isolated. The PaFS is an unusual chimeric diterpene synthase that possesses not only terpene cyclase activity (the formation of fusicoccadiene, a biosynthetic precursor of fusicoccin A), but also prenyltransferase activity (the formation of GGDP). Thus, we identified a unique multifunctional diterpene synthase family in fungi.     

Steroidogenic effect of ent-kaur-16-en-15 beta-ol (kaurenol) on isolated rat adrenal cells

In an in vitro bioassay system for adrenocorticotropic hormone using isolated rat adrenal cells, kaurenol, a diterpene alcohol, stimulated corticosterone production and augmented the steroidogenic effect of adrenocorticotropin or forskolin, dose-dependently. Kaurenol had no effect on cyclic AMP production by the cells. The diterpene also had no stimulatory effect on the adrenal adenylate cyclase activity in a cell free system. The results suggest that this particular diterpene exerts a steroidogenic effect through a mechanism independent of cyclic AMP generation.     

Diterpene cyclases and the nature of the isoprene fold

The structures and mechanism of action of many terpene cyclases are known, but no structures of diterpene cyclases have yet been reported. Here, we propose structural models based on bioinformatics, site‐directed mutagenesis, domain swapping, enzyme inhibition, and spectroscopy that help explain the nature of diterpene cyclase structure, function, and evolution. Bacterial diterpene cyclases contain ～20 α‐helices and the same conserved “QW” and DxDD motifs as in triterpene cyclases, indicating the presence of a βγ barrel structure. Plant diterpene cyclases have a similar catalytic motif and βγ‐domain structure together with a third, α‐domain, forming an αβγ structure, and in H⁺‐initiated cyclases, there is an EDxxD‐like Mg²⁺/diphosphate binding motif located in the γ‐domain. The results support a new view of terpene cyclase structure and function and suggest evolution from ancient (βγ) bacterial triterpene cyclases to (βγ) bacterial and thence to (αβγ) plant diterpene cyclases. Proteins 2010. © 2010 Wiley‐Liss, Inc.     

High-level expression of the Geranylgeranyl diphosphate synthase gene in the frontal gland of soldiers in Reticulitermes speratus (Isoptera: Rhinotermitidae)

Defensive strategies of termite soldiers are roughly classified as either mechanical, using mandibles and/or the whole head, or chemical, using frontal gland secretion. Soldiers of the genus Nasutitermes (Termitidae, Nasutitermitinae), which is one of the most derived termite genera, use only chemical defenses, and diterpene defensive secretions were suggested to be synthesized through geranylgeranyl diphosphate (GGPP). On the other hand, soldiers of the genus Reticulitermes (Rhinotermitidae, Heterotermitinae) mainly use mechanical defenses, but also use supplementary chemical defenses involving frontal gland secretions, including diterpene alcohol. In this study, to confirm whether the GGPP is used for diterpene synthesis in a representative of an earlier-branching termite lineage, the GGPP synthase gene (RsGGPPS) was identified in the rhinotermitid Reticulitermes speratus (Kolbe). The relative expression level of RsGGPPS in soldiers was three-fold higher than in workers. Furthermore, RsGGPPS gene expression was detected in epithelial class 1 gland cells around the frontal-gland reservoir. Although GGPP is used for various essential cellular roles in animals, RsGGPPS is suggested to be used not only for these essential roles but also for diterpene synthesis in order to produce defensive secretions. Chemical structures of the diterpene identified from Reticulitermes and Nasutitermes are extremely different from each other, and the two genera are phylogenetically distant from each other. Thus, these two lineages may have independently acquired the abilities of diterpene synthesis from GGPP.     

Enzymatic (13)C labeling and multidimensional NMR analysis of miltiradiene synthesized by bifunctional diterpene cyclase in Selaginella moellendorffii

Diterpenes show diverse chemical structures and various physiological roles. The diversity of diterpene is primarily established by diterpene cyclases that catalyze a cyclization reaction to form the carbon skeleton of cyclic diterpene. Diterpene cyclases are divided into two types, monofunctional and bifunctional cyclases. Bifunctional diterpene cyclases (BDTCs) are involved in hormone and defense compound biosyntheses in bryophytes and gymnosperms, respectively. The BDTCs catalyze the successive two-step type-B (protonation-initiated cyclization) and type-A (ionization-initiated cyclization) reactions of geranylgeranyl diphosphate (GGDP). We found that the genome of a lycophyte, Selaginella moellendorffii, contains six BDTC genes with the majority being uncharacterized. The cDNA from S. moellendorffii encoding a BDTC-like enzyme, miltiradiene synthase (SmMDS), was cloned. The recombinant SmMDS converted GGDP to a diterpene hydrocarbon product with a molecular mass of 272 Da. Mutation in the type-B active motif of SmMDS abolished the cyclase activity, whereas (+)-copalyl diphosphate, the reaction intermediate from the conversion of GGDP to the hydrocarbon product, rescued the cyclase activity of the mutant to form a diterpene hydrocarbon. Another mutant lacking type-A activity accumulated copalyl diphosphate as the reaction intermediate. When the diterpene hydrocarbon was enzymatically synthesized from [U-(13)C(6)]mevalonate, all carbons were labeled with (13)C stable isotope (>99%). The fully (13)C-labeled product was subjected to (13)C-(13)C COSY NMR spectroscopic analyses. The direct carbon-carbon connectivities observed in the multidimensional NMR spectra demonstrated that the hydrocarbon product by SmMDS is miltiradiene, a putative biosynthetic precursor of tanshinone identified from the Chinese medicinal herb Salvia miltiorrhiza. Hence, SmMDS functions as a bifunctional miltiradiene synthase in S. moellendorffii. In this study, we demonstrate that one-dimensional and multidimensional (13)C NMR analyses of completely (13)C-labeled compound are powerful methods for biosynthetic studies.     

New diterpenes from Porella perrottetiana

Perrottetianal A and perrottetianal B, two new diterpene dialdehydes and a new ent-labdane-type diterpene diol have been isolated from the liverwort Porella perrottetiana and their structures have been elucidated by the chemical and spectral evidence.     

Comparison of Stevia plants grown from seeds,cuttings and stem-tip cultures for growth and sweet diterpene glucosides

The growth and sweet diterpene glucosides of Stevia plants propagated by stem-tip cultures were compared with those of the control plants propagated by seeds. There was no significant difference between the two groups both in growth and in chemical composition. As for the contents of sweet diterpene glucosides, however, the clonal plants showed significantly smaller variations than the sexually propagated plants; they were almost as homogeneous as the plants propagated by cuttings. These results suggest that the clonal propagation by stem-tip culture is an effective method of obtaining a population of uniform plants for the production of sweet diterpene glucosides.     

Jatrophane and lathyrane diterpenoids from Euphorbia hyberna L

A new diterpene tetraester, from the jatrophane family, and two new diterpene triesters, with a lathyrane skeleton, have been isolated from the chloroform extract of the roots of Euphorbia hyberna L. The structures of these compounds have been established by spectroscopic methods, including 2D NMR experiments.     

The effect of the diterpene 5-epi-icetexone on the cell cycle of Trypanosoma cruzi

Numerous natural compounds have been used against Trypanosoma cruzi, the causative agent of Chagas' disease. Here, we studied the effect of the diterpene 5-epi-icetexone on growth and morphology of parasites synchronized with hydroxyurea, at different periods of time after removal of the nucleotide. We observed that the diterpene does not affect the growth of the parasites when added within 10 h after removal of hydroxyurea, but the compound was effective on growth when added to the cultures after 12 h. Thymidine incorporation was somewhat inhibited when the diterpene was added at 12 h after removal of hydroxyurea, possibly on the transition S/G2. Using transmission electron microscopy we observed that the diterpene induced a delay in the progression of cell division. We conclude that the compound, at cytostatic dose, affects the cell cycle of T. cruzi, possibly in the transition S/G2 phase and cell division. Further studies will focus to identify the molecular targets for the action of 5-epi-icetexone.     

Nor-ent-kaurane diterpenes and hydroxylactones from Antennaria geyeri and Anaphalis margaritacea

In a study of Pacific Northwest plants of the Asteraceae family, a nor-ent-kaurane diterpene and a known diterpene, both displaying antibacterial activities, were isolated together with scopoletin and sitosterol-3-O-beta-glucopyranoside from the aerial parts of Antennaria geyeri. Anaphalis margaritacea afforded two hydroxylactones. The structures were established by one and two dimensional NMR techniques, IR and CIMS.     

Four new sacculatane-type diterpenoids from Trichocoleopsis sacculata and Pellia endiviaefolia

The characteristic pungency of the liverwort, Trichocoleopsis sacculata is due to the mixture of three sacculatane-type diterpene dialdehydes. Two have new structures, 18-hydroxysacculatal and 19-hydroxysacculatal, and the third is the previously known sacculatal. The absolute configurations of the new diterpene dialdehydes were tentatively shown by the co-occurrence of sacculatal and isosacculatal. Two new non-pungent sacculatanes, 3-hydroxyisosacculatal and 3-hydroxysacculatanolide have been isolated from the liverwort Pellia endiviaefolia together with sacculatal and isosacculatal. The position of the hydroxyl group at C-3 in the new diterpenes was also assumed on biogenetic considerations and a structural analogy with perrottetianal B, a previously known sacculatane-type diterpene dialdehyde isolated from the liverwort.     

Preparation of yuanhuacine and relative daphne diterpene esters from Daphne genkwa and structure-activity relationship of potent inhibitory activity against DNA topoisomerase I

Two new daphne diterpene esters Yuanhuajine (2) and Yuanhuagine (4), together with three known daphne diterpene esters yuanhuacine (1), yuanhuadine (3), and yuanhuapine (5), were isolated and identified from Daphne genkwa, a traditional Chinese medicine. Their structures were elucidated by a combination of UV, IR, MS and NMR ((1)H NMR, (13)C NMR, HSQC, and HMBC) spectra. In order to explore the structure-activity relationship, three compounds 6, 7, and 8 were prepared as three derivatives of 1. Inhibitory activities against DNA topoisomerase I (topo I) were assessed for the compounds 1-8. These compounds, except for 8, exhibited potent inhibitory activities against DNA topo I at IC(50) levels of 11.1-53.4 microM and they are new type of topo I inhibitors bearing different structures compared with the known topo I inhibitors. The agarose-gel electrophoresis experiments showed that the orthoester group of daphne diterpene esters was necessary for the inhibitory activity against DNA topo I, and the inhibition against DNA topo I is probably one of the anti-tumor mechanisms of daphne diterpene esters.     

Effects of allapinin on sodium currents in isolated neurons of the trigeminal ganglia and cardiomyocytes of rats

Block of sodium currents by allapinin (diterpene alkaloid with strong antiarrhythmic properties) was investigated in isolated, voltage clamped rat trigeminal neurons and cultured neonatal rat single ventricular myocytes. Allapinin produces a decrease in sodium current amplitude without any changes in voltage dependent properties. Possible differences between the mechanisms of antiarrhythmic effect of diterpene alkaloids and classic antiarrhythmic agents have been analysed.     

New labdane resin acids from Pinus elliottii

Slash pine needles and cortex oleoresin have been found to contain a new major diterpene constituent, imbricataloic acid. The closely related imbricatoloic acid, previously reported only in Araucaria imbricata, was found to be present in small amounts in slash pine needle extract. Spectral data are given for an unidentified diterpene alcohol isolated from the cortex oleoresin.     

Pseudopterosin biosynthesis—pathway elucidation,enzymology, and a proposed production method for anti-inflammatory metabolites from<Emphasis Type="Italic"> Pseudopterogorgia elisabethae</Emphasis>

The pseudopterosins are a family of diterpene pentosides isolated from the marine octocoral, Pseudopterogorgia elisabethae. These compounds possess non-steroidal anti-inflammatory and analgesic properties which have been shown to be greater than the industry standard, indomethacin. In our investigations, we are interested in examining the biosynthesis and enzymology of these compounds for the development of a biotechnological production method. We have isolated the pseudopterosin diterpene cyclase product, elisabethatriene, using a radioactivity-guided isolation. This has provided us with an assay to isolate the diterpene cyclase enzyme. The amino acid sequence of the purified diterpene cyclase will facilitate cloning and expression of the gene in a suitable host. In addition, we have identified over 25 novel diterpenes from one of our collections of P. elisabethae. Several of these compounds appear to be involved in pseudopterosin biosynthesis and are presently being evaluated as potential intermediates. These compounds have also been evaluated for anti-inflammatory activity and some possess greater activity than that of the pseudopterosins. We therefore propose a production method utilizing a combination of recombinant enzyme technology and synthetic methods/biocatalysis in order to produce one or more anti-inflammatory metabolites in P. elisabethae.     

Diterpene quinone of Salvia Linn. and their taxonomic significance

Abstract We have analysed diterpene quinone constituents of 79 species (containing variety and form) in the genus Salvia by different chemical methods, and found that 38 species of them contain diterpene quinone on this ground, as well as its morphologic, histological structure of root and geographical distribution, we come to a conclusion as follows: l. According to literatural and our analytical date, so far the diterpene quinone have mainly been found in the Labiatae plants that possess the fertile stamen 2 versatile namely in Salvia Linn., upon which a new subfamily Salvioideae is preliminarily proposed here. 2. Deterpene quinone, as a chemotaxonomic charater, is of phylogenetic significance and can be used for identifying the spicies of the genus. 3. A further rearrangement of some species of some series and sections in attribu-tion is needed.     

Domain loss has independently occurred multiple times in plant terpene synthase evolution

The extensive family of plant terpene synthases (TPSs) generally has a bi-domain structure, yet phylogenetic analyses consistently indicate that these synthases have evolved from larger diterpene synthases. In particular, that duplication of the diterpene synthase genes required for gibberellin phytohormone biosynthesis provided an early predecessor, whose loss of a approximately 220 amino acid 'internal sequence element' (now recognized as the γ domain) gave rise to the precursor of the modern mono- and sesqui-TPSs found in all higher plants. Intriguingly, TPSs are conserved by taxonomic relationships rather than function. This relationship demonstrates that such functional radiation has occurred both repeatedly and relatively recently, yet phylogenetic analyses assume that the 'internal/γ' domain loss represents a single evolutionary event. Here we provide evidence that such a loss was not a singular event, but rather has occurred multiple times. Specifically, we provide an example of a bi-domain diterpene synthase from Salvia miltiorrhiza, along with a sesquiterpene synthase from Triticum aestivum (wheat) that is not only closely related to diterpene synthases, but retains the ent-kaurene synthase activity relevant to the ancestral gibberellin metabolic function. Indeed, while the wheat sesquiterpene synthase clearly no longer contains the 'internal/γ' domain, it is closely related to rice diterpene synthase genes that retain the ancestral tri-domain structure. Thus, these findings provide examples of key evolutionary intermediates that underlie the bi-domain structure observed in the expansive plant TPS gene family, as well as indicating that 'internal/γ' domain loss has occurred independently multiple times, highlighting the complex evolutionary history of this important enzymatic family.     

A comparative study of two clerodane diterpenes from Baccharis trimera (Less.) DC. on the influx and mobilization of intracellular calcium in rat cardiomyocytes

Baccharis trimera (Less.) D.C. (Asteraceae) is a medicinal species native to South America and used in Brazilian folk medicine to treat gastrointestinal and liver diseases, kidney disorders and diabetes. The aqueous extract (AE) of the aerial parts of this species presented two mainly constituents: the ent-clerodane diterpene (Fig. 1) and the neo-clerodane diterpene (Fig. 2). The objective of this work was to study their activities on the blockade of Ca²⁺-induced contractions in KCL-depolarized rat portal vein preparations, and on the influx and mobilization of cytosolic calcium in rat cardiomyocytes by fluorescence measurements. The results showed that both the neo- and the ent-clerodane diterpenes reduced the maximal contractions induced by CaCl₂, in KCl depolarized rat portal vein preparations, without modifying the EC₅₀. The data on the concentration of cytosolic calcium ([Ca²⁺]_c) showed that, while the neo-clerodane diterpene stimulates the mobilization of [Ca²⁺]_c in rat cardiomyocytes, this effect was not observed with the ent-clerodane diterpene. On the other hand, the influx of calcium was not altered by the neo-clerodane diterpene, but was reduced in the presence of the ent-clerodane diterpene, indicating that this compound induces a blockade of the voltage-dependent calcium channels.