Functional proteomic and structural insights into molecular targets related to the growth inhibitory effect of tanshinone IIA on HeLa cells

Certain antitumor agents have recently been extracted from the roots of Salvia miltiorrhiza Bunge. The diterpene derivative, tanshinone IIA, possesses cytotoxic activity against several human carcinoma cell lines. It also inhibits invasion and metastasis of cancer cells. In the present study, we isolated tanshinone IIA from S. miltiorrhiza, and it exhibited strong growth inhibition against human cervical cancer cells in dose‐ and time‐dependent manners with a 50% cell growth inhibition value of 2.5 μg/mL (8.49 μM). Flow cytometric analysis of cell cycle progression revealed that G₂/M arrest was initiated after a 24 h exposure to the drug. It also resulted in DNA fragmentation and degradation of poly (ADP‐ribose) polymerase indicating that tanshinone IIA may be a potential antitumor agent. Furthermore, we performed a comprehensive proteomic analysis to survey global protein changes induced by tanshinone IIA treatment on HeLa cells. Significant changes in the levels of cytoskeleton proteins as well as stress‐associated proteins were observed. Immunoblot analysis and immunofluorescence staining were used to confirm the levels of protein expression. Overexpression of the vimentin rescued these tanshinone IIA‐induced events. Computational docking methods indicated that tanshinone IIA could stably bind to the β‐subunit of the microtubule protein. An interaction network analysis of these 12 proteins using MetaCore? software suggested that tanshinone IIA treatment regulated the expressions of proteins involved in apoptotic processes, spindle assembly, and p53 activation, including vimentin, Maspin, α‐ and β‐tubulin, and GRP75. Taken together, our results suggest that tanshinone IIA strongly inhibited the growth of cervical cancer cells through interfering in the process of microtubule assembly, leading to G₂/M phase arrest and sequent apoptosis. The success of this large‐scale effort was assessed by a bioinformatics analysis of proteins through predictions of protein domains and possible functional roles. The possible contributions of these proteins to the cytotoxicity of tanshinone IIA provide potential opportunities for the development of cancer therapeutics.     

Tanshinone IIA and tanshinone I production by Trichoderma atroviride D16, an endophytic fungus in Salvia miltiorrhiza

In this study the isolation of an endophytic fungus from the root of the medicinal herb Salvia miltiorrhiza Bunge is reported for the first time. The fungus produced tanshinone I and tanshinone IIA in rich mycological medium (potato dextrose broth) under shake flask and bench scale fermentation conditions. The fungus was identified as Trichoderma atroviride by its morphology and authenticated by ITS analysis (ITS1 and ITS2 regions and the intervening 5.8S rDNA region). Tanshinone I and tanshinone IIA were identified by HPLC and LC-HRMS/MS and confirmed through comparison with authentic standards. This endophytic fungus has significant scientific and industrial potential to meet the pharmaceutical demands for tanshinone I and tanshinone IIA in a cost-effective, easily accessible and reproducible way.     

Roles of reactive oxygen species in methyl jasmonate and nitric oxide-induced tanshinone production in Salvia miltiorrhiza hairy roots

Salvia miltiorrhiza is one of the most popular traditional Chinese medicinal plants for treatment of coronary heart disease. Tanshinones are the main biological active compounds in S. miltiorrhiza. In this study, effects of exogenous methyl jasmonate (MJ) and nitric oxide (NO) on tanshinone production in S. miltiorrhiza hairy roots were investigated and the roles of reactive oxygen species (ROS) in MJ and NO-induced tanshinone production were elucidated further. The results showed that contents of four tanshinone compounds were significantly increased by 100 μM MJ when compared to the control. Application of 100 μM sodium nitroprusside (SNP), a donor of NO, also resulted in a significant increase of tanshinone production. Expression of two key genes encoding 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMGR) and 1-deoxy-d-xylulose 5-phosphate reductoisomerase (DXR) was up-regulated by MJ and SNP. Generations of O₂ ⁻ and H₂O₂ were triggered by MJ, but not by SNP. The increase of tanshinone production and up-regulation of HMGR and DXR expression induced by MJ were significantly inhibited by ROS scavengers, superoxide dismutase (SOD) and catalase (CAT). However, neither SOD nor CAT was able to suppress the SNP-induced increase of tanshinone production and expression of HMGR and DXR gene. In conclusion, tanshinone production was significantly stimulated by MJ and SNP. Of four tanshinone compounds, cryptotanshinone accumulation was most affected by MJ elicitation, while cryptotanshinone and tanshinone IIA accumulation was more affected by SNP elicitation. ROS mediated MJ-induced tanshinone production, but SNP-induced tanshinone production was ROS independent.     

Induction and potentiation of diterpenoid tanshinone accumulation in Salvia miltiorrhiza hairy roots by β-aminobutyric acid

The non-protein amino acid -aminobutyric acid (BABA) is a proven inducer of plant defense against pathogens. This work examines its effect on the production of diterpenoid tanshinones in Salvia miltiorrhiza hairy root cultures, both separately and in combination with a yeast elicitor (YE, the carbohydrate fraction of yeast extract). In the absence of YE, BABA at 0.1, 1 and 2 mM caused a dose-dependent enhancement of tanshinone accumulation, with up to a 4.5-fold increase (from 0.24 to 1.09 mg/g DW) in total content of three major tanshinones (cryptotanshinone, tanshinone I and tanshinone IIA) in the hairy roots. The combination of BABA with YE treatment further enhanced tanshinone production, but only when the BABA treatment was applied to the culture a few days before the YE treatment. Compared with methyl jasmonate, BABA was more effective in enhancing tanshinone production. A 3-day pretreatment with 1 mM BABA followed by YE-treatment, increased the total tanshinone content of roots by 9.4 times to 2.26 mg/g cells, and the volumetric tanshinone yield of culture by 6.3 times (from 3.2 to 20.1 mg/l). The results suggest that BABA can strongly potentiate elicitor-induced secondary metabolism in plant tissue cultures.     

Influence of carbon and nitrogen sources on the lipid accumulation and arachidonic acid production by Mortierella alpina

Carbon and nitrogen influence the lipid accumulation and arachidonic acid production by Mortierella alpina CCF 185 cultivated at 28°C for 7 days on a rotary shaker. The fungus grown with glucose, starch or dextrin as the carbon source produced satisfactory amounts of lipid and arachidonic acid. The maximum arachidonic acid values were obtained on media with yeast extract or NaNO₃ as the nitrogen source. The C/N ratio of 40:1 resulted in the highest yields of lipid and arachidonic acid with different amounts of NaNO₃ concentration.     

Optimized conditions for high erythritol production by<Emphasis Type="Italic">Penicillium</Emphasis> sp. KJ-UV29, mutant of<Emphasis Type="Italic">Penicillium</Emphasis> sp. KJ81

To improve the erythritol productivity ofPenicillium sp. KJ81, mutants were obtained using UV irradiation and NTG treatment. Among these mutants,Penicillium sp. KJ-UV29 revealed no morphological changes, yet was superior to the wild strain in the following three points: (1)Penicillium sp. KJ-UV29 produced more erythritol than the wild strain under the same conditions, (2) no foam was produced during cultivation, unlike the wild strain, and (3) the mutant produced a significantly lower amount of glycerol.Penicillium sp KJ-UV29 produced as much as 15.1 g/L of erythritol, whereas the wild-typePenicillium sp. KJ-UV29 produced as much as 15.1 g/L of erythritol, whereas the wild-typePenicillium sp. KJ81 only produced 11.7 g/L.Penicillium sp. KJ-UV29 only generated 6.1 g/L of glycerol, compared to 19.4 g/L produced by the wild strain. When investigating the optimal culture conditions for erythritol production by the mutant strainPenicillium sp. KJ-UV29, sucrose was idetified as the most effective carbon source, and the mutant was even able to produce erythritol in a 70% sucrose-containing medium, although a 30% sucrose medium exhibited the highest productivity. The production of erythritol byPenicillium sp. KJ-UV29 was also significantly increased by the addition of ammonium carbonate, potassium nitrate, and sodium nitrate. Accordingly, under optimal conditions,Penicillium sp. KJ-UV29 produced 45.2 g/L of erythritol in a medium containing 30% sucrose, 0.5% yeast extract, 0.5% (NH₄)₂C₂O₄ 0.1% NaNO₃, and 0.01% FeSO₄ with 1 vvm aeration and 200 rpm agitation at 37°C for 7 days in a 5-L jar fermentor.     

Tanshinone IIA isolated from Salvia miltiorrhiza elicits the cell death of human endothelial cells

Summary Tanshinone IIA, a major component extracted from the traditional herbal medicine, Salvia miltiorrhiza Bunge, is known to exhibit potent cytotoxicity against various human carcinoma cells in vitro. However, the mechanism by which tanshinone IIA produces this anti-tumor effect remains unknown. Since anti-neovascularization has generally been regarded as an effective strategy for anti-cancer therapy, we decided to investigate the mechanism underlying tanshinone IIA-mediated death of human endothelial cells. In this study, we demonstrate that tanshinone IIA elicits human endothelial cell death independent of oxidative stress. These events are partially calcium-dependent and actually dependent upon NAD(P)H: quinone oxidoreductase (NQO1) activity. Tanshinone IIA induces an increase in intracellular calcium, which triggers the release of cytochrome c, thus causing loss of the mitochondrial membrane potential (MMP), resulting in the subsequent activation of caspases. Blocking the induction of Ca²⁺ perturbation with BAPTA-AM partially rescued cells from tanshinone IIA-induced cytotoxicity. Additionally, blocking NQO1 activity with dicoumoral or inhibiting caspase activities with the general caspase inhibitor, z-VAD-fmk, prevented cell death induced by tanshinone IIA. Therefore, our results imply that tanshinone IIA-mediated cytotoxicity against human endothelial cells may occur through activation of NQO1, which induces a calcium imbalance and mitochondrial dysfunction, thus stimulating caspase activity.These authors contributed equally to this work.     

Tanshinone production in roots of micropropagated Salvia przewalskii Maxim

Production of tanshinones (tanshinone I and IIA) was determined in roots of Salvia przewalskii micropropagated plants. It was found that the total tanshinone content (tashinone I and tashinone IIA) was dependent on the age of the analyzed plants. The roots of 2-year-old in vitro regenerated plants at flowering stage produced highest tanshinone levels (3.8 mg/g dry weight of tanshinone I and 7.6 mg/g dry weight of tanshinone IIA).     

Tanshinone IIA enhances BMP-2-stimulated commitment of C2C12 cells into osteoblasts via p38 activation

In this study, we demonstrate a stimulatory effect of tanshinone IIA isolated from the root of Salvia miltiorrhiza on the commitment of bi-potential mesenchymal precursor C2C12 cells into osteoblasts in the presence of bone morphogenetic protein (BMP)-2. At low concentrations, tanshinone IIA enhanced BMP-2-stimulated induction of alkaline phosphatase (ALP), an early phase biomarker of osteoblast differentiation, and mRNA expression of BMPs. ALP induction was inhibited by the BMP antagonist noggin, suggesting that tanshinone IIA enhances the osteogenic activity of BMP signaling. Furthermore, considering the tanshinone IIA-mediated enhancement of BMP-2-stimulated Smad-Runx2 activities, tanshinone IIA could enhance the osteogenic activity of BMP-2 via acceleration of Smad-Runx2 activation. Additionally, pharmacologic inhibition studies suggest the possible involvement of p38 in the action of tanshinone IIA. The p38 inhibitor SB202190 strongly and dose-dependently inhibited tanshinone IIA-enhanced ALP induction. SB202190 also dose-dependently inhibited the tanshinone IIA-induced p38 activation and combined tanshinone IIA-BMP-2-induced Smad activation. In conclusion, tanshinone IIA enhances the commitment of C2C12 cells into osteoblasts and their differentiation through synergistic cross talk between tanshinone IIA-induced p38 activation and BMP-2-induced Smad activation. These activations could subsequently induce the activation of Runx2, which induces osteogenesis via regulation of the osteogenic factors BMP and ALP expression.     

Induction of apoptosis and inhibition of cell adhesive and invasive effects by tanshinone IIA in acute promyelocytic leukemia cells in vitro

Tanshinone IIA, a diterpene quinone extracted from the traditional herbal medicine, Salvia miltiorrhiza Bunge, is used widely and successfully in clinics in China for treating inflammatory diseases. Recently tanshinone IIA has been reported to have apoptosis inducing effects on a large variety of cancer cells. In this study, the anti-proliferation and apoptosis inducing effects of tanshinone IIA as well as its influence on cell adhesion to and invasion through the extracellular matrix (ECM) on acute promyelocytic leukemia (APL) NB4 cells in vitro were studied. Cell proliferation was assessed by MTT assay, cell apoptosis was observed by Hoechst 33258 staining and flow cytometry (FCM); The variation of caspase-3 and apoptotic related genes were assayed by Western blotting, cell mitochondrial membrane potential as well as cell adhesive and invasive effects were also investigated by using standard methods. The results showed that tanshinone IIA exhibited induction of apoptosis by activation of caspase-3, downregulation of anti-apoptotic protein bcl-2 and bcl-xl and upregulation of pro-apoptotic protein bax, as well as disruption of the mitochondrial membrane potential. Furthermore, treatment by tanshinone IIA could reduce cell adhesion to and invasion through ECM in leukemia NB4 cells. These data provide a potential mechanism for tanshinone IIA-induced apoptosis and cell growth inhibition in leukemia NB4 cells, suggesting that tanshinone IIA may serve as an effective adjunctive reagent for the treatment of APL.Contributed equally to this study.     

Interaction of the nematophagous fungus Duddingtonia flagrans on Amblyomma cajannense engorged females and enzymatic characterisation of its chitinase

The present work aimed to evaluate the production and the characterisation of a chitinase from nematophagous fungus Duddingtonia flagrans (AC001) and observe the interaction of this fungus on engorged females of Amblyomma cajennense under laboratory conditions. In assay A, the engorged females of A. cajennense were separated and immersed for 5 seconds in a fungal suspension of 10⁶ conidia/ml of the fungus D. flagrans and placed in Petri dishes, in the dark. In assay B, wheat bran supplemented with 1% chitin and liquid minimal medium was used [K₂HPO₄ (5.0 g/l), MgSO₄ (0.10 g/l), ZnSO₄ (0.0050 g/l), FeSO₄ (0.001 g/l) e CuSO₄ (0.50 mg/l)], as a substrate for chitinase production. To demonstrate the presence of chitinase in the crude extract obtained after the enzymatic extraction, a purification process was developed using a specific adsorption technique. The results from assay A demonstrated the interaction of the D. flagrans conidia produced from chitin-agar on engorged females of A. cajennense. In the assay B, D. flagrans produced a chitinase successfully, with a high value for enzyme activity. The molecular mass of semi-purified enzyme was estimated at approximately 34 kDa. It was concluded that the fungus produced a chitinase and has some entomopathogenic activity, as demonstrated here for the first time; however, it is strongly suggested that further studies are needed to elucidate the molecular mechanism of infection of target organisms by this fungus.     

Effect of yeast elicitor and salicylic acid on the fluctuation of phytohormone contents in Ti-transformed Salvia miltiorrhiza cell cultures

When Ti transformed Salvia miltiorrhiza cells werecultured in a MS-NH₄ medium (MS without ammonium nitrate, containing30 g/L sucrose) at 25 °C in darkness for 18d, the total tanshinone (cryptotanshinone and tashinone IIA)contents in cultures were 12.23 mg/L and 15.07 mg/Lfor yeast elicitor (4 g/L), and yeast elicitor plus 200mol/L salicylic acid (SA) treated cultures, respectively,whereas only trace amounts of tanshinone were detected in the control or SAtreated cells. To explore the hormonal background concerning these phenomena,endogenous phytohormones were determined using ELISA kits. We found that ABA andiPAs contents in yeast elicitor plus SA treated cell cultures were increased 2.8to 9.8-fold and 3.6 to 5.8-fold respectively, while contents of GA₁and IAA were decreased by 13.2%–56.9% and 34.8%–74.6% respectively.This suggests that higher levels of ABA and iPAs combined with lower levels ofGA₁ and IAA inhibit the growth of cells, then probably stimulate thetanshinone production.     

Kinetics of cell growth and secondary metabolism of a high-tanshinone-producing line of the Ti transformed Salvia miltiorrhiza cells in suspension culture

When cultivated in 6,7-V medium in suspension culture, Salvia miltiorrhiza, transformed with Agrobacterium tumefaciens C58, grew rapidly, reaching about 9.7 g l^–1 dry wt after 12 days. The cell line produced tanshinones: 150 mg cryptotanshinone, 20 mg tanshinone I and 50 mg tanshinone IIA/l and phenolic acids: 530 mg rosmarinic acid and 216 mg lithospermic acid B/l. The phenolic acids were intracellular while about 1/3 of the tanshinones were extracellular. This is the first report of simultaneous production of both phenolic acids and tanshinones in a single culture system.     

Production of prostaglandin F2α by molecular breeding of an oleaginous fungus Mortierella alpina

Cyclooxygenases are responsible for the production of prostaglandin H₂ (PGH₂) from arachidonic acid. PGH₂ can be converted into some bioactive prostaglandins, including prostaglandin F_2α (PGF_2α), a potent chemical messenger used as a biological regulator in the fields of obstetrics and gynecology. The chemical messenger PGF_2α has been industrially produced by chemical synthesis. To develop a biotechnological process, in which PGF_2α can be produced by a microorganism, we transformed an oleaginous fungus, Mortierella alpina 1S-4, rich in triacylglycerol consisting of arachidonic acid using a cyclooxygenase gene from a red alga, Gracilaria vermiculophylla. PGF_2α was accumulated not only in the mycelia of the transformants but also in the extracellular medium. After 12 days of cultivation approximately 860 ng/g and 6421 µg/L of PGF_2α were accumulated in mycelia and the extracellular medium, respectively. The results could facilitate the development of novel fermentative methods for the production of prostanoids using an oleaginous fungus.     

Statistical model based optimization of spore production by solid-state culture of Beauveria bassiana

A significant enhancement of spore production by solid-state culture of Beauveria bassiana was achieved via a statistical modeling and optimization approach. A two-level Plackett–Burman design was implemented to screen the significant medium components for spore production. Among the six variables tested, sucrose, NaNO₃, and H₃BO₃ were identified as the most significant factors (confidence levels above 95%) for spore production. The steepest ascent experiments were adopted to determine the optimal region of the medium composition. The developed second-order polynomial model predicted that the maximal spore production was 6.24×10⁹/g with the following optimal culture conditions: sucrose 34.7 g/L, NaNO₃ 52.8 g/L, and H₃BO₃ 79.6 µg/L. Finally the verification experiments were carried out and the maximal spore production reached 6.221×10⁹/g at the above optimal conditions. The spore production in the verification experiments was very close to that predicted by the model, indicating that the constructed second-order model had superior modeling and optimization ability and can be applied in the optimal spore production of Beauveria bassiana YP9 as a biological control agent.     

Production of aflatoxin by Aspergillus parasiticus NRRL-2999 during growth in the presence of curing salts

Aspergillus parasiticus NRRL-2999 was inoculated into meat mixtures with curing salts and into yeast extractsucrose (YES) and sucrose-ammonium salts (SAS) broth with and without curing salts to determine if the presence of curing salts significantly affected growth and aflatoxin production by the mold. The effect of individual curing salts or curing salt mixtures on growth and toxin elaboration by the aspergillus was substrate dependent. When YES broth contained 100 ppm of NaNO₂, 2% NaCl, or 1 or 2% NaCl plus 200 ppm of NaNO₂ or 200 ppm of NaNO₃, growth and/or aflatoxin production was depressed. Biosynthesis of aflatoxin B₁ was enhanced by presence of 1 and 4% NaCl in YES broth. The SAS broth containing only NaCl or NaCl combined with nitrite or nitrate yielded less aflatoxin than did control broth or no aflatoxin at all. When compared to the control, an increase in growth and amount of aflatoxin occurred in SAS broth which contained 200 ppm of NaNO₃. Sausages containing 100 and 200 ppm NaNO₂ and no NaCl supported more mold growth and aflatoxin production than did control sausage with 3 % NaCl and 100 ppm of NaNO₂. Addition of 2 and 3 % NaCl and no nitrite to sausage resulted in less aflatoxin than in control sausage.     

PXR-mediated transcriptional activation of CYP3A4 by cryptotanshinone and tanshinone IIA

Danshen (Radix Salvia miltiorrhiza) is a famous Traditional Chinese Medicine used widely for the treatment of coronary heart disease and cerebrovascular disease. Diterpenoid tanshinones including tanshinone I, tanshinone IIA and cryptotanshinone are the major bioactive components from Danshen herb. Previous reports have demonstrated that Danshen extracts could induce the expression of CYP3A in rodents, however, the constituents responsible for Danshen-mediated CYP3A induction and the underlying molecular mechanisms remain unknown. The discovery of a family of nuclear receptors such as pregnane X receptor (PXR), constitutive androstane receptor (CAR) and glucocorticoid receptor (GR) gives insight into the molecular explanation of CYP3A induction by xenobiotics. In the present study, interactions between Danshen constituents and human PXR were evaluated using a reporter gene assay. Our observations showed that Danshen ethanol extract could activate human PXR and induce the CYP3A4 reporter construct in HepG2 cells. Tanshinone IIA and cryptotanshinone were identified as efficacious PXR agonists, and cryptotanshinone activated the CYP3A4 promoter more strongly than tanshinone IIA. Furthermore, CAR and GR were also involved in the induction of CYP3A4 expression by tanshinones, though their roles seemed not as important as PXR. Treatment of LS174T cells with cryptotanshinone or tanshinone IIA resulted in a significant increase of CYP3A4 mRNA, which was consistent with the results from the reporter gene assay. Collectively, activation of PXR and the resultant CYP3A4 induction mediated by cryptotanshinone and tanshinone IIA provide a molecular mechanism for previously observed CYP3A induction by Danshen extracts, and our findings also suggest that caution should be taken when Danshen products are used in combination with therapeutic drugs metabolized by CYP3A4.     

In vitro inhibitory effects of ethanol extract of Danshen (Salvia miltiorrhiza) and its components on the catalytic activity of soluble epoxide hydrolase

Background: Soluble epoxide hydrolase (sEH) has been demonstrated to be a key enzyme involved in the pathologic development of several cardiovascular diseases and inflammation, and inhibition of sEH is therefore very helpful or crucial for the treatment of ischemia-reperfusion injury, cardiac hypertrophy, hypertension and inflammation. Danshen, the dried root of Salvia miltiorrhiza (Fam. Labiatae), has been used for the treatment of cardiovascular and cerebrovascular diseases in China and other countries for hundreds of years. Recent studies indicated that Danshen and its preparations also have potential for the management of inflammation. However, little information is available about the possibility of Danshen and its components on sEH inhibition.Purpose and methods: Danshen extracts and its constituents were tested for sEH inhibition using its physiological substrate, 8,9-EET, based on a LC–MS/MS assay in this study.Results: Among the tested 15 compounds, tanshinone IIA and cryptotanshinone were found to be the potent (K_i = 0.87 μM) and medium (K_i = 6.7 μM) mixed-type inhibitors of sEH, respectively. Salvianolic acid C (K_i = 8.6 μM) was proved to be a moderate noncompetitive sEH inhibitor. In consistent with the inhibition results of the pure compounds, the 75% ethanol extract of Danshen (EE, IC₅₀ = 86.5 μg/ml) which contained more tanshinone IIA and cryptotanshinone exhibited more potent inhibition on sEH than the water extract (WE, IC₅₀ > 200 μg/ml) or 1 M NaHCO₃ (BE, IC₅₀ > 200 μg/ml) extract.Conclusion: These data indicated that using the ethanol fraction of Danshen and increasing the amounts of tanshinone IIA, cryptotanshinone and salvianolic acid C, especially the contents of tanshinone IIA in Danshen extract or preparations to enhance the inhibitory effects on sEH might be efficient ways to improve its cardiovascular protective and anti-inflammatory effects, and that herbal medicines could be an untapped reservoir for sEH-inhibition agents and developing sEH inhibitors from the cardiovascular protective and anti-inflammatory herbs is a promising approach.     

丹参四个栽培类型的脂溶性成分的聚类分析

为给丹参优质新品种选育研究提供一定的理论依据,本文采用HPLC法测定江苏栽培的四个丹参类型的丹参酮IIA、隐丹参酮的含量,采用紫外分光光度法测定其总丹参酮的含量,以DPS软件对其脂溶性成分的HPLC的8个峰的比例、隐丹参酮与丹参酮IIA的比值、丹参酮IIA、隐丹参酮和总丹参酮的含量进行聚类分析。结果表明四个类型丹参的脂溶性成分类别基本一致,其中小叶型丹参的隐丹参酮与丹参酮IIA的比值、隐丹参酮的含量与其它三个类型相差较大,聚类结果显示小叶型丹参独自成为一个类群,说明小叶型丹参为一个较为特殊的类型,也是一个优质的丹参材料。