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1.
New Phytol ; 241(4): 1720-1731, 2024 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-38013483

RESUMO

Wilforlide A is one of the main active constituents produced in trace amounts in Tripterygium wilfordii Hook F, which has excellent anti-inflammatory and immune suppressive effects. Despite the seeming structural simplicity of the compound, the biosynthetic pathway of wilforlide A remains unknown. Gene-specific expression analysis and genome mining were used to identify the gene candidates, and their functions were studied in vitro and in vivo. A modularized two-step (M2S) technique and CRISPR-Cas9 methods were used to construct engineering yeast. Here, we identified a cytochrome P450, TwCYP82AS1, that catalyses C-22 hydroxylation during wilforlide A biosynthesis. We also found that TwCYP712K1 to K3 can further oxidize the C-29 carboxylation of oleanane-type triterpenes in addition to friedelane-type triterpenes. Reconstitution of the biosynthetic pathway in engineered yeast increased the precursor supply, and combining TwCYP82AS1 and TwCYP712Ks produced abrusgenic acid, which was briefly acidified to achieve the semisynthesis of wilforlide A. Our work presents an alternative metabolic engineering approach for obtaining wilforlide A without relying on extraction from plants.


Assuntos
Ácido Oleanólico/análogos & derivados , Saccharomyces cerevisiae , Triterpenos , Saccharomyces cerevisiae/genética , Saccharomyces cerevisiae/metabolismo , Triterpenos/metabolismo , Anti-Inflamatórios/metabolismo
2.
J Nat Prod ; 87(9): 2160-2169, 2024 Sep 27.
Artigo em Inglês | MEDLINE | ID: mdl-39190018

RESUMO

Notoginsenosides are important bioactive compounds from Panax notoginseng (Burk.) F. H. Chen, most of which have xylose in their sugar chains. However, the xylosyltransferases involved in the generation of notoginsenosides remain poorly understood, posing a bottleneck for further study of the biosynthesis of notoginsenosides. In this work, a new xylosyltransferase gene, PnUGT57 (named UGT94BW1), was identified from P. notoginseng, which has a distinct sequence and could catalyze the 2'-O glycosylation of ginsenosides Rh1 and Rg1 to produce notoginsenosides R2 and R1, respectively. We first characterized the optimal conditions for the PnUGT57 activity and its enzymatic kinetic parameters, and then, molecular docking and site-directed mutagenesis were performed to elucidate the catalytic mechanism of PnUGT57. Combined with the results of site-directed mutagenesis, Glu26, Ser266, Glu267, Trp347, Ser348, and Glu352 in PnUGT57 were identified as the key residues involved in 2'-O glycosylation of C-6 O-Glc, and PnUGT57R175A and PnUGT57G237A could significantly improve the catalytic activity of PnUGT57. These findings not only provide a new xylosyltransferase gene for augmenting the plant xylosyltransferase database but also identify the pivotal sites and catalytic mechanism of the enzyme, which would provide reference for the modification and application of xylosyltransferases in the future.


Assuntos
Ginsenosídeos , Panax notoginseng , Pentosiltransferases , UDP Xilose-Proteína Xilosiltransferase , Ginsenosídeos/metabolismo , Ginsenosídeos/biossíntese , Ginsenosídeos/química , Glicosilação , Pentosiltransferases/metabolismo , Pentosiltransferases/genética , Estrutura Molecular , Mutagênese Sítio-Dirigida , Simulação de Acoplamento Molecular
3.
J Nat Prod ; 87(2): 176-185, 2024 02 23.
Artigo em Inglês | MEDLINE | ID: mdl-38277488

RESUMO

Celastrol is a bioactive pentacyclic triterpenoid with promising therapeutic effects that is mainly distributed in Celastraceae plants. Although some enzymes involved in the celastrol biosynthesis pathway have been reported, many biosynthetic steps remain unknown. Herein, transcriptomics and metabolic profiles of multiple species in Celastraceae were integrated to screen for cytochrome P450s (CYPs) that are closely related to celastrol biosynthesis. The CYP716 enzyme, TwCYP716C52, was found to be able to oxidize the C-2 position of polpunonic acid, a precursor of celastrol, to form the wilforic acid C. RNAi-mediated repression of TwCYP716C52 in Tripterygium wilfordii suspension cells further confirmed its involvement in celastrol biosynthesis. The C-2 catalytic mechanisms of TwCYP716C52 were further explored by using molecular docking and site-directed mutagenesis experiments. Moreover, a modular optimization strategy was used to construct an engineered yeast to produce wilforic acid C at a titer of 5.8 mg·L-1. This study elucidates the celastrol biosynthetic pathway and provides important functional genes and sufficient precursors for further enzyme discovery.


Assuntos
Saccharomyces cerevisiae , Triterpenos , Saccharomyces cerevisiae/metabolismo , Simulação de Acoplamento Molecular , Triterpenos Pentacíclicos , Triterpenos/metabolismo , Sistema Enzimático do Citocromo P-450/genética , Sistema Enzimático do Citocromo P-450/metabolismo , Tripterygium/genética
4.
J Sci Food Agric ; 2024 Aug 09.
Artigo em Inglês | MEDLINE | ID: mdl-39118479

RESUMO

BACKGROUND: Sanqi, the root of Panax notoginseng, has long been recognized for its therapeutic effects on cardiovascular diseases. Saponins, including ginsenosides and notoginsenosides, are the main bioactive components of P. notoginseng. The biosynthesis of saponins is closely related to the defense responses orchestrated by endogenous hormones. RESULTS: To provide new insights into the underlying role of phytohormone jasmonic acid (JA) in the synthesis and regulation of saponins, we performed an ultra-performance liquid chromatography analysis of different tissues of P. notoginseng aged 2-4 years. Moreover, by combined evaluation of saponin content and transcriptome profiling of each tissue, the spatial and temporal distribution of saponins was analyzed. N notoginsenoside R1, ginsenoside Rb1 and ginsenoside Rd accumulated in the underground tissues, including the root, tuqi, fibril and rhizome. In agreement with this data, the corresponding genes of the endogenous hormone JAs, especially coronatine insensitive 1 (COI1) and myelocytomatosis proteins 2 (MYC2), were predominantly expressed in the underground tissues. The tissue- and age-specific distribution of saponins was consistent with the expression of genes involved in JA biosynthetic, metabolic and signaling pathways. CONCLUSION: The present study has revealed the temporal and spatial effects of endogenous phtohormones in the synthesis and regulation of notoginsenosides, which will provide a significant impact on improving the ecological planting technology, cultivating new high-quality varieties and protecting the rare resources of medicinal P. notoginseng. © 2024 Society of Chemical Industry.

5.
Plant J ; 109(3): 555-567, 2022 02.
Artigo em Inglês | MEDLINE | ID: mdl-34750899

RESUMO

Triterpenes are among the most diverse plant natural products, and their diversity is closely related to various triterpene skeletons catalyzed by different 2,3-oxidosqualene cyclases (OSCs). Celastrol, a friedelane-type triterpene with significant bioactivities, is specifically distributed in higher plants, such as Celastraceae species. Friedelin is an important precursor for the biosynthesis of celastrol, and it is synthesized through the cyclization of 2,3-oxidosqualene, with the highest number of rearrangements being catalyzed by friedelane-type triterpene cyclases. However, the molecular mechanisms underlying the catalysis of friedelin production by friedelane-type triterpene cyclases have not yet been fully elucidated. In this study, transcriptome data of four celastrol-producing plants from Celastraceae were used to identify a total of 21 putative OSCs. Through functional characterization, the friedelane-type triterpene cyclases were separately verified in the four plants. Analysis of the selection pressure showed that purifying selection acted on these OSCs, and the friedelane-type triterpene cyclases may undergo weaker selective restriction during evolution. Molecular docking and site-directed mutagenesis revealed that changes in some amino acids that are unique to friedelane-type triterpene cyclases may lead to variations in catalytic specificity or efficiency, thereby affecting the synthesis of friedelin. Our research explored the functional diversity of triterpene synthases from a multispecies perspective. It also provides some references for further research on the relative mechanisms of friedelin biosynthesis.


Assuntos
Celastrus/genética , Celastrus/metabolismo , Transferases Intramoleculares/genética , Transferases Intramoleculares/metabolismo , Triterpenos Pentacíclicos/metabolismo , Tripterygium/genética , Tripterygium/metabolismo , Vias Biossintéticas , Regulação da Expressão Gênica de Plantas , Genes de Plantas , Plantas Medicinais/genética , Plantas Medicinais/metabolismo
6.
Clin Lab ; 69(10)2023 Oct 01.
Artigo em Inglês | MEDLINE | ID: mdl-37844054

RESUMO

BACKGROUND: Hypomagnesemia with secondary hypocalcemia (HSH) is a genetic disorder arising from the body's impaired capacity to absorb and retain magnesium (Mg2+) consumed through diet. Consequently, Mg2+ levels in blood are significantly reduced, a condition referred to as hypomagnesemia. Insufficient levels of Mg2+ and calci-um (Ca2+) can lead to neurological complications that manifest during infancy, such as painful muscle spasms (tet-any) and seizures. METHODS: We reported a case of HSH involving a 10-year-old male patient from a Han Chinese family. He was admitted due to recurrent convulsions experienced over the past two years. The patient's initial episode occurred two years prior, when he collapsed without apparent cause and exhibited limb numbness, convulsions, and a disordered state of consciousness, accompanied by hypocalcemia. Cranial CT scans revealed multiple symmetrical calcifications in the basal ganglia, corona radiata, and cerebellar dentate nucleus. RESULTS: During the hospital stay, the patient was administered the following treatments: Calcium Carbonate and Vitamin D3 Tablets (1.5 g of calcium carbonate and 125 IU of Vitamin D3 per tablet, 1 tablet/time) once daily, Calcitriol Soft Capsules (0.25 µg of calcitriol per capsule, 1 capsule/time) twice daily, Potassium Chloride Sustained-release Tablets (0.5 g of potassium chloride per tablet, 1 tablet/time) thrice daily, Potassium Aspartate and Mag-nesium Aspartate Tablets (158 mg of potassium aspartate and 140 mg of magnesium aspartate per tablet, 1 tablet/ time) thrice daily, and intravenous infusions of Magnesium Sulfate Injection (2.5 g/time) twice daily. After three days in the hospital, the patient's initial symptoms subsided, resulting in discharge with a prescription of ongoing oral medications including Calcium Carbonate and Vitamin D3 Tablets, Calcitriol Soft Capsules, and Potassium Aspartate and Magnesium Aspartate Tablets, with the same usage and dosage as the above three drugs. A month subsequent, the serum levels of Mg2+, Ca2+, potassium (K+), and phosphorus were 0.96 mmol/L, 2.52 mmol/L, 4.06 mmol/L, and 1.63 mmol/L, respectively. CONCLUSIONS: Primary HSH is an uncommon manifestation of parathyroid hypoplasia, clinically characterized by low levels of Mg2+, Ca2+, and K+ in the blood. Our findings serve to enrich and consolidate the knowledge for future case studies and follow-up investigations.


Assuntos
Hipocalcemia , Masculino , Humanos , Criança , Hipocalcemia/diagnóstico , Hipocalcemia/tratamento farmacológico , Hipocalcemia/etiologia , Magnésio/uso terapêutico , Calcitriol , Ácido Aspártico/uso terapêutico , Cálcio/uso terapêutico , Cloreto de Potássio/uso terapêutico , Colecalciferol , Convulsões/tratamento farmacológico , Carbonato de Cálcio/uso terapêutico , Comprimidos/uso terapêutico
7.
Int J Clin Pharmacol Ther ; 61(10): 460-465, 2023 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-37548457

RESUMO

We report a case of voriconazole-induced visual abnormality based on drug interaction of voriconazole and esomeprazole, therapeutic drug monitoring, and optimal therapy. An 81-year-old male developed visual abnormality after the blood concentration of voriconazole was up to 6.47 mg/L induced by coadministration with esomeprazole. Voriconazole is a substrate of multiple CYP450 isoenzymes including CYP2C19 (the major route), CYP3A4, and CYP2C9. Esomeprazole, a proton pump inhibitor (PPI), is also converted to inactive metabolites through CYP3A4 and CYP2C19-mediated metabolism, and is also a CYP2C19 inhibitor. The coadministration with esomeprazole inhibited the metabolism of voriconazole via CYP2C19 and promoted the elevation of voriconazole blood concentration beyond the minimum toxic level (5.5 mg/L). According to the pharmacist's advice, the adverse effects of visual abnormalities in the patient disappeared after the clinician reduced voriconazole dosage by 50% when other medication schedules remained unchanged. Therefore, therapeutic drug monitoring of voriconazole should be considered in patients receiving PPIs, especially esomeprazole, in order to adjust the dosage in time and achieve optimal therapeutic response and minimal adverse reaction.


Assuntos
Citocromo P-450 CYP3A , Esomeprazol , Masculino , Humanos , Idoso de 80 Anos ou mais , Esomeprazol/efeitos adversos , Voriconazol/efeitos adversos , Citocromo P-450 CYP2C19/genética , Citocromo P-450 CYP2C19/metabolismo , Inibidores da Bomba de Prótons/efeitos adversos , Interações Medicamentosas
8.
J Clin Pharm Ther ; 47(8): 1293-1296, 2022 Aug.
Artigo em Inglês | MEDLINE | ID: mdl-35322453

RESUMO

WHAT IS KNOWN AND OBJECTIVE: We present a case of intravenous amiodarone-induced liver injury, pharmacy monitoring and its therapy. CASE SUMMARY: A 76-year-old male patient developed acute liver injury 24 h after starting intravenous amiodarone. His liver enzymes improved after discontinuing amiodarone and anti-inflammatory liver therapy, which used reduced glutathione, magnesium isoglycyrrhizinate and ademetionine1,4-butanedisulfonate for injection. WHAT IS NEW AND CONCLUSION: Amiodarone is a highly effective antiarrhythmic agent for the treatment and prevention of atrial and ventricular arrhythmias. Acute liver damage after intravenous amiodarone is rare but potentially harmful. Amiodarone loading should be adapted to the necessity of an immediate effect of the drug, and liver function should be monitored closely in critically ill patients. Timely stopped suspected drug and anti-inflammatory liver therapy may reduce the occurrence of drug-induced diseases.


Assuntos
Amiodarona , Falência Hepática , Idoso , Amiodarona/efeitos adversos , Antiarrítmicos , Arritmias Cardíacas/induzido quimicamente , Estado Terminal , Humanos , Infusões Intravenosas , Falência Hepática/induzido quimicamente , Falência Hepática/tratamento farmacológico , Masculino
9.
Metab Eng ; 60: 87-96, 2020 07.
Artigo em Inglês | MEDLINE | ID: mdl-32268192

RESUMO

Miltiradiene is a key intermediate in the biosynthesis of many important natural diterpene compounds with significant pharmacological activity, including triptolide, tanshinones, carnosic acid and carnosol. Sufficient accumulation of miltiradiene is vital for the production of these medicinal compounds. In this study, comprehensive engineering strategies were applied to construct a high-yielding miltiradiene producing yeast strain. First, a chassis strain that can accumulate 2.1 g L-1 geranylgeraniol was constructed. Then, diterpene synthases from various species were evaluated for their ability to produce miltiradiene, and a chimeric miltiradiene synthase, consisting of class II diterpene synthase (di-TPS) CfTPS1 from Coleus forskohlii (Plectranthus barbatus) and class I di-TPS SmKSL1 from Salvia miltiorrhiza showed the highest efficiency in the conversion of GGPP to miltiradiene in yeast. Moreover, the miltiradiene yield was further improved by protein modification, which resulted in a final yield of 550.7 mg L-1 in shake flasks and 3.5 g L-1 in a 5-L bioreactor. This work offers an efficient and green process for the production of the important intermediate miltiradiene, and lays a foundation for further pathway reconstruction and the biotechnological production of valuable natural diterpenes.


Assuntos
Diterpenos/metabolismo , Engenharia Metabólica/métodos , Proteínas Mutantes Quiméricas/metabolismo , Saccharomyces cerevisiae/genética , Saccharomyces cerevisiae/metabolismo , Terpenos/metabolismo , Vias Biossintéticas , Sistemas CRISPR-Cas , Simulação por Computador , Diterpenos/química , Fermentação , Redes e Vias Metabólicas , Proteínas Mutantes Quiméricas/genética , Mutação , Plasmídeos
10.
Nat Commun ; 14(1): 876, 2023 02 16.
Artigo em Inglês | MEDLINE | ID: mdl-36797319

RESUMO

Grass pea (Lathyrus sativus L.) is a rich source of protein cultivated as an insurance crop in Ethiopia, Eritrea, India, Bangladesh, and Nepal. Its resilience to both drought and flooding makes it a promising crop for ensuring food security in a changing climate. The lack of genetic resources and the crop's association with the disease neurolathyrism have limited the cultivation of grass pea. Here, we present an annotated, long read-based assembly of the 6.5 Gbp L. sativus genome. Using this genome sequence, we have elucidated the biosynthetic pathway leading to the formation of the neurotoxin, ß-L-oxalyl-2,3-diaminopropionic acid (ß-L-ODAP). The final reaction of the pathway depends on an interaction between L. sativus acyl-activating enzyme 3 (LsAAE3) and a BAHD-acyltransferase (LsBOS) that form a metabolon activated by CoA to produce ß-L-ODAP. This provides valuable insight into the best approaches for developing varieties which produce substantially less toxin.


Assuntos
Diamino Aminoácidos , Lathyrus , Lathyrus/genética , Lathyrus/metabolismo , Diamino Aminoácidos/metabolismo , Neurotoxinas/metabolismo , Genômica
11.
Plant Direct ; 6(7): e424, 2022 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-35898558

RESUMO

Terpenoids are a class of significant bioactive components in the woody vine of Tripterygium wilfordii. Previous studies have shown that MYB transcription factors play important roles in plant secondary metabolism, growth, and developmental processes. However, the MYB involved in terpenoid biosynthesis in Tripterygium wilfordii are unknown. To identify Tripterygium wilfordii MYB (TwMYB) genes that are involved in terpenoid biosynthesis, we conducted the genome-wide analysis of the TwMYB gene family. A total of 207 TwMYBs were identified including 84 1R-TwMYB, 117 R2R3-TwMYB, four 3R-TwMYB, and two 4R-TwMYB genes. The most abundant R2R3-TwMYBs together with their Arabidopsis homologs were categorized into 26 subgroups. Intraspecific collinearity analysis found that the 74.9% of the TwMYBs may be generated by segmental duplication events, and 36.7% of duplicated gene pairs were derived from the specific whole genome duplication (WGD) event in Tripterygium wilfordii. In addition, interspecies collinearity analysis found that 16 TwMYB genes formed homologous gene pairs with MYB genes in seven representative species, which indicated they may have a key role in evolution. Notably, we found that the TwMYB genes were differentially expressed in various tissues by expression pattern analysis. In order to further select the candidate genes related to terpenoid biosynthesis, the assay of Methyl jasmonate (MeJA) induction and analysis of phylogenetic tree was conducted. It was speculated that six candidate TwMYB genes (TwMYB33, TwMYB34, TwMYB45, TwMYB67, TwMYB102, and TwMYB103) are involved in regulating terpenoid biosynthesis. This study is the first systematic analysis of the TwMYB gene family and will lay a foundation for the functional characterization of TwMYB genes in the regulation of terpenoid biosynthesis.

12.
ACS Synth Biol ; 11(7): 2394-2404, 2022 07 15.
Artigo em Inglês | MEDLINE | ID: mdl-35687875

RESUMO

Panax notoginseng is one of the most famous valuable medical plants in China, and its broad application in clinical treatment has an inseparable relationship with the active molecules, ginsenosides. Ginsenosides are glycoside compounds that have varied structures for the diverse sugar chain. Although extensive work has been done, there are still unknown steps in the biosynthetic pathway of ginsenosides. Here, we screened candidate glycosyltransferase genes based on the previous genome and transcriptome data of P. notoginseng and cloned the full length of 27 UGT genes successfully. Among them, we found that PnUGT33 could catalyze different ginsenoside substrates to produce higher polarity rare ginsenosides by extending the sugar chain. We further analyzed the enzymatic kinetics and predicted the catalytic mechanism of PnUGT33 by simulating molecular docking. After that, we reconstructed the biosynthetic pathway of rare ginsenoside Rg3 and gypenoside LXXV in yeast. By combining the Golden Gate method and overexpressing the UDPG biosynthetic genes, we further improved the yield of engineering yeast strain. Finally, the shake-flask culture yield of Rg3 reached 51 mg/L and the fed-batch fermentation yield of gypenoside LXXV reached 94.5 mg/L, which was the first and highest record.


Assuntos
Ginsenosídeos , Panax notoginseng , Panax , Ginsenosídeos/genética , Ginsenosídeos/metabolismo , Glicosiltransferases/genética , Glicosiltransferases/metabolismo , Engenharia Metabólica/métodos , Simulação de Acoplamento Molecular , Panax/química , Panax/genética , Panax/metabolismo , Panax notoginseng/genética , Panax notoginseng/metabolismo , Saccharomyces cerevisiae/genética , Saccharomyces cerevisiae/metabolismo , Saponinas , Açúcares/metabolismo , Triterpenos
13.
Front Bioeng Biotechnol ; 10: 805429, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-35198543

RESUMO

Friedelin, the most rearranged pentacyclic triterpene, also exhibits remarkable pharmacological and anti-insect activities. In particular, celastrol with friedelin as the skeleton, which is derived from the medicinal plant Tripterygium wilfordii, is a promising drug due to its anticancer and antiobesity activities. Although a previous study achieved friedelin production using engineered Saccharomyces cerevisiae, strains capable of producing high-level friedelin have not been stably engineered. In this study, a combined strategy was employed with integration of endogenous pathway genes into the genome and knockout of inhibiting genes by CRISPR/Cas9 technology, which successfully engineered multiple strains. After introducing an efficient TwOSC1T502E, all strains with genetic integration (tHMG1, ERG1, ERG20, ERG9, POS5, or UPC2.1) showed a 3.0∼6.8-fold increase in friedelin production compared with strain BY4741. Through further double knockout of inhibiting genes, only strains GD1 and GD3 produced higher yields. Moreover, strains GQ1 and GQ3 with quadruple mutants (bts1; rox1; ypl062w; yjl064w) displayed similar increases. Finally, the dominant strain GQ1 with TwOSC1T502E was cultured in an optimized medium in shake flasks, and the final yield of friedelin reached 63.91 ± 2.45 mg/L, which was approximately 65-fold higher than that of the wild-type strain BY4741 and 229% higher than that in ordinary SD-His-Ura medium. It was the highest titer for friedelin production to date. Our work provides a good example for triterpenoid production in microbial cell factories and lays a solid foundation for the mining, pathway analysis, and efficient production of valuable triterpenoids with friedelin as the skeleton.

14.
Plant Commun ; 2(1): 100113, 2021 01 11.
Artigo em Inglês | MEDLINE | ID: mdl-33511345

RESUMO

Panax notoginseng, a perennial herb of the genus Panax in the family Araliaceae, has played an important role in clinical treatment in China for thousands of years because of its extensive pharmacological effects. Here, we report a high-quality reference genome of P. notoginseng, with a genome size up to 2.66 Gb and a contig N50 of 1.12 Mb, produced with third-generation PacBio sequencing technology. This is the first chromosome-level genome assembly for the genus Panax. Through genome evolution analysis, we explored phylogenetic and whole-genome duplication events and examined their impact on saponin biosynthesis. We performed a detailed transcriptional analysis of P. notoginseng and explored gene-level mechanisms that regulate the formation of characteristic tubercles. Next, we studied the biosynthesis and regulation of saponins at temporal and spatial levels. We combined multi-omics data to identify genes that encode key enzymes in the P. notoginseng terpenoid biosynthetic pathway. Finally, we identified five glycosyltransferase genes whose products catalyzed the formation of different ginsenosides in P. notoginseng. The genetic information obtained in this study provides a resource for further exploration of the growth characteristics, cultivation, breeding, and saponin biosynthesis of P. notoginseng.


Assuntos
Mapeamento Cromossômico , Genoma de Planta , Ginsenosídeos/biossíntese , Ginsenosídeos/genética , Panax notoginseng/genética , Panax notoginseng/metabolismo , China , Regulação da Expressão Gênica de Plantas , Genes de Plantas , Extratos Vegetais/biossíntese , Extratos Vegetais/genética , Plantas Medicinais/genética , Plantas Medicinais/metabolismo , Transcriptoma
15.
Front Pharmacol ; 10: 202, 2019.
Artigo em Inglês | MEDLINE | ID: mdl-30923500

RESUMO

Salvia miltiorrhiza Bunge, a member of the Lamiaceae family, is valued in traditional Chinese Medicine. Its dried root (named Danshen) has been used for hundreds of years, primarily for the treatment of cardiovascular and cerebrovascular diseases. Tanshinones are the main active ingredients in S. miltiorrhiza and exhibit significant pharmacological activities, such as antioxidant activity, anti-inflammatory activity, cardiovascular effects, and antitumor activity. Danshen dripping pill of Tianshili is an effective drug widely used in the clinical treatment of cardiovascular diseases. With the increasing demand for clinical drugs, the traditional method for extracting and separating tanshinones from medicinal plants is insufficient. Therefore, in combination with synthetic biological methods and strategies, it is necessary to analyze the biosynthetic pathway of tanshinones and construct high-yield functional bacteria to obtain tanshinones. Moreover, the biosynthesis of tanshinones has been studied for more than two decades but remains to be completely elucidated. This review will systematically present the composition, extraction and separation, pharmacological activities and biosynthesis of tanshinones from S. miltiorrhiza, with the intent to provide references for studies on other terpenoid bioactive components of traditional Chinese medicines and to provide new research strategies for the sustainable development of traditional Chinese medicine resources.

17.
Phytochemistry ; 166: 112062, 2019 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-31299395

RESUMO

Tripterygium wilfordii Hook. f. is a perennial woody vine member of the Celastraceae family. As a traditional Chinese medicine, it contains complex chemical components and exerts various pharmacological activities. In the present study, we identified a glucosyltransferase, TwUGT1, that can catalyze the synthesis of an abietane-type diterpene glucoside, namely, triptophenolide14-O-beta-D-glucopyranoside, and investigated the pharmacological activity of triptophenolide glucoside in diverse cancer cells. Triptophenolide glucoside exhibited significant inhibitory effects on U87-MG, U251, C6, MCF-7, HeLa, K562, and RBL-2H3 cells as determined by pharmacological analysis. The triptophenolide glucoside content of T. wilfordii was analyzed using Agilent Technologies 6490 Triple Quad LC/MS. The glucosyltransferase TwUGT1 belongs to subfamily 88 and group E in family 1. Molecular docking and site-directed mutagenesis of TwUGT1 revealed that the His30, Asp132, Phe134, Thr154, Ala370, Leu376, Gly382, His387, Glu395 and Gln412 residues play crucial roles in the catalytic activity of triptophenolide 14-O-glucosyltransferase. In addition, TwUGT1 was also capable of glucosylating phenolic hydroxyl groups, such as those in liquiritigenin, pinocembrin, 4-methylumbelliferone, phloretin, and rhapontigenin.


Assuntos
Biocatálise , Diterpenos/química , Diterpenos/metabolismo , Glucosídeos/química , Glucosiltransferases/metabolismo , Tripterygium/química , Glucosiltransferases/química , Simulação de Acoplamento Molecular , Conformação Proteica
19.
Int J Nanomedicine ; 12: 3049-3058, 2017.
Artigo em Inglês | MEDLINE | ID: mdl-28450781

RESUMO

Carbohydrate antigen 19-9 (CA19-9) is an important biomarker for the early diagnosis and clinical monitoring of pancreatic cancer. Reliable, simple, and accurate methods for the detection of CA19-9 are still urgently needed. In this study, polythionine-Au composites (AuNPs@ PThi) were designed and prepared through one-pot reaction using HAuCl4 as the co-oxidant and raw material in thionine solution containing FeCl3 as the oxidant. AuNPs@PThi-immobilized glassy carbon electrode was used as a sensitive redox probe for electrochemical interface. AuNPs@PThi not only favored the amplification of electrochemical signals but also facilitated excellent environmental friendliness for bioassay. Maximizing the electrochemical properties of AuNPs@PThi, an effective label-free electrochemical immunoassay for the ultrasensitive and reliable detection of CA19-9 was developed. Under optimal conditions, the linear range of the proposed immunosensor was estimated to range from 6.5 to 520 U/mL, with a detection limit of 0.26 U/mL at a signal-to-noise ratio of 3. The prepared immunosensor for CA19-9 detection showed high sensitivity, stability, and reproducibility. Furthermore, the fabricated immunosensor based on AuNPs@PThi can effectively detect and distinguish clinical serum samples of pancreatic cancer and normal control with accuracy and convenience.


Assuntos
Biomarcadores Tumorais/sangue , Antígeno CA-19-9/análise , Técnicas Eletroquímicas/métodos , Imunoensaio/métodos , Neoplasias Pancreáticas/sangue , Biomarcadores Tumorais/análise , Técnicas Biossensoriais/instrumentação , Técnicas Biossensoriais/métodos , Antígeno CA-19-9/sangue , Estudos de Casos e Controles , Técnicas Eletroquímicas/instrumentação , Eletrodos , Ouro/química , Humanos , Imunoensaio/instrumentação , Limite de Detecção , Nanopartículas/química , Neoplasias Pancreáticas/diagnóstico , Reprodutibilidade dos Testes , Sensibilidade e Especificidade , Razão Sinal-Ruído
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