Effect the accumulation of bioactive constituents of a medicinal plant (Salvia Miltiorrhiza Bge.) by arbuscular mycorrhizal fungi community.

BACKGROUND: Arbuscular mycorrhizal fungi (AMF) form symbiotic relationships with various terrestrial plants and have attracted considerable interest as biofertilizers for improving the quality and yield of medicinal plants. Despite the widespread distribution of AMFs in Salvia miltiorrhiza Bunge's roots, research on the impact of multiple AMFs on biomass and active ingredient accumulations has not been conducted. In this study, the effects of five native AMFs (Glomus formosanum, Septoglomus constrictum, Rhizophagus manihotis, Acaulospora laevis, and Ambispora gerdemannii) and twenty-six communities on the root biomass and active ingredient concentrations of S. miltiorrhiza were assessed using the total factor design method. RESULTS: Thirty-one treatment groups formed symbiotic relationships with S. miltiorrhiza based on the pot culture results, and the colonization rate ranged from 54.83% to 89.97%. AMF communities had higher colonization rates and total phenolic acid concentration than single AMF, and communities also appeared to have higher root fresh weight, dry weight, and total phenolic acid concentration than single inoculations. As AMF richness increased, there was a rising trend in root biomass and total tanshinone accumulations (ATTS), while total phenolic acid accumulations (ATP) showed a decreasing trend. This suggests that plant productivity was influenced by the AMF richness, with higher inoculation benefits observed when the communities contained three or four AMFs. Additionally, the affinities of AMF members were also connected to plant productivity. The inoculation effect of closely related AMFs within the same family, such as G. formosanum, S. constrictum, and R. manihotis, consistently yielded lower than that of mono-inoculation when any combinations were applied. The co-inoculation of S. miltiorrhiza with nearby or distant AMFs from two families, such as G. formosanum, R. manihotis, and Ac. laevis or Am. gerdemannii resulted in an increase of ATP and ATTS by more than 50%. AMF communities appear to be more beneficial to the yield of bioactive constituents than the single AMF, but overall community inoculation effects are related to the composition of AMFs and the relationship between members. CONCLUSION: This study reveals that the AMF community has great potential to improve the productivity and the accumulation of bioactive constituents in S. miltiorrhiza, indicating that it is an effective way to achieve sustainable agricultural development through using the AMF community.

Diversity and function of culturable actinobacteria in the root-associated of Salvia miltiorrhiza Bunge.

The root-associated actinobacteria play important roles in plant growth, nutrient use, and disease resistance due to their functional diversity. Salvia miltiorrhiza is a critical medicinal plant in China. The root actinobacterial community structure has been studied; however, the functions of root-associated actinobacteria of S. miltiorrhiza have not been elucidated. This study aimed to decipher the diversity and function of the culturable root-associated actinobacteria in plant growth using culture-dependent technology and culturable microbe metagenomes. We isolated 369 strains from the root-associated actinobacteria, belonging to four genera, among which Streptomyces was dominant. Besides, the functional prediction revealed some pathways related to plant growth, nitrogen and phosphorus metabolism, and antagonistic pathogens. We systematically described the diversity and functions of the culturable root-associated actinobacteria community. Our results demonstrated that the culturable root-associated actinobacteria of S. miltiorrhiza have rich functionalities, explaining the possible contribution of culturable root-associated actinobacteria to S. miltiorrhiza's growth and development. This study provides new insights into understanding the function of the culturable root-associated actinobacteria and can be used as a knowledge base for plant growth promoters and biological control agent development in agriculture.

Efficacy of autologous platelet-rich plasma in treating patients with burn wounds: A protocol for systematic review and meta-analysis.

BACKGROUND: Burns are still regarded among severe health problems related to high morbidity and mortality rates globally. In essence, health problems associated with burns can cause significant economic burden to society. Regardless of treatment available options, no best treatment was considered adequate for treating severe burns. In particular, only a few studies have focused on the effect of autologous platelet-rich plasma to treat burn wounds. The present study aim to systematically review existing literature to examine the effectiveness and safety of autologous platelet-rich plasma (PRP) to treat burn wounds. METHODS: For this study, we will conduct a systematic search using MEDLINE, EMBASE, the Cochrane Library, Web of Science, CINAHL, as well as Scopus to discover randomised controlled trials (RCTs) for the examination of effectiveness and safety of autologous PRP to treat burn wounds from their inception to March 2021 with no language restrictions. Additionally, we will search Google Scholar, ClinicalTrials.gov, as well as the reference lists of studies considered in the research to ascertain possibly eligible studies. We used two independent authors to evaluate studies for inclusion and conduct data extraction. We intend to assess study bias and quality utilizing the Cochrane Collaboration's Risk of Bias Tool 2.0. Also, we will pool study results using the fixed-effects model or random-effects model. Finally, any disagreements emanating from the process will be addressed through discussion or using a third author to mediate situations leading to disagreement. RESULTS: The study aims at assessing the effectiveness and safety of autologous PRP for treating burn wounds. CONCLUSION: The study will provide specific substantiation to assess autologous PRP's effectiveness and safety in treating patients with burn wounds. ETHICS AND DISSEMINATION: The study does not require ethical approval since no published studies are used in it. OSF REGISTRATION NUMBER: March 29, 2021.osf.io/74z5u. (https://osf.io/74z5u/).

Effects of Native Arbuscular Mycorrhizae Isolated on Root Biomass and Secondary Metabolites of Salvia miltiorrhiza Bge.

Arbuscular mycorrhiza fungi (AMFs) are a group of soil-dwelling fungi that form symbiotic associations with plants, to mediate the secondary metabolism and production of active ingredients in aromatic and medicinal plants. Currently, there is little research on Salvia miltiorrhiza Bge. inoculation with native AMFs and the concomitant effects on growth and secondary metabolites. In this study, S. miltiorrhiza was treated with eight AMFs, i.e., Glomus formosanum; Gl. tenebrosum; Septoglomus constrictum; Funneliformis geosporum; Rhizophagus manihotis; Ambispora gerdemanii; Acaulospora laevis; Ac. tuberculata, to investigate the influence of AMF inoculation on biomass and secondary production under greenhouse conditions in S. miltiorrhiza roots. The results showed that mycorrhiza formation rates were between 54.83 and 86.10%. Apart from Ac. laevis and Gl. tenebrosum treatment, the roots biomass of the other treatment groups was effectively increased, and the fresh and dry weight of the plant inoculated with Fu. geosporum were increased by 86.76 and 86.95%, respectively. Specifically, AMF treatments also impacted on phenolic acids production; inoculation with both Fu. geosporum or Ac. laevis significantly reduced total phenolic acids, whereas the other treatments effectively increased these levels, of which Gl. formosanum generated significant levels. Most AMF-plant symbiotic experiments facilitated phenolic acid accumulation in the secondary metabolites of S. miltiorrhiza (except Ac. laevis). This study showed that most native AMFs inoculation with S. miltiorrhiza promoted roots growth and increased secondary metabolites production (especially phenolic acids). Going forward, inoculation of native AMF is a promising method to improve the quality and yield of S. miltiorrhiza and should be considered during production.

Cryptotanshinone: A review of its pharmacology activities and molecular mechanisms.

As a natural quinone compound, the medicinal value of cryptotanshinone (CT) has received increasing attentions, but there is no systematic literature review that describes the pharmacological activity of CT. This paper reviewed the pharmacology researches of CT, with a primary focus on its anti-tumor activity. We also discussed the underlying molecular mechanisms, and proposed future outlooks. In addition to anti-tumor activity, CT was found to have anti-inflammatory, neuroprotective, cardioprotective, visceral protective, anti-metabolic disorders and other abilities. Furthermore, the potential molecular mechanisms contributing to the anti-tumor effect of CT likely involve the following aspects: the induction of apoptosis, targeting of ER and AR, reversion of MDR, combined pharmacotherapy, and the inhibition of cell proliferation, migration, and invasion. We also found that different pharmacological effects involved various signaling pathways. Among them, STAT3-related signaling pathways played a vital role in the CT-mediated induction of tumor cell apoptosis and proliferation, while NF-κB signal pathway also was essential for inhibition of inflammation by CT. Furthermore, CT could significantly enhance the activities of several anticancer drugs and reverse their resistances in tumors. Therefore, we proposed suggestions for future studies of CT, including enhancing anti-tumor activity by targeting STAT3-related receptors, targeting NF-κB-related pathways to inhibit inflammatory responses, enhancing anti-tumor efficacy by combining with anti-tumor drugs, and further studying the dose-effect relationship to ensure safer and more effective applications of CT.

[One new truxillic amide compound from Abrus mollis leaves].

The butanol extract part was extracted and isolated with water, alcohol and different organic solvents from Abrus mollis leaves. 6 compounds were isolated and purified using various column chromatographies and identified with the spectral techniques such as UV, MS, TLC, HPLC and NMR. The structures of 6 compounds were trigonelline (1), praline (2), alanine anhydride (3), (Z)-N-(4-hydroxycinnamoyl)tyrosine (4), (E)-N-(4-hydroxycinnamoyl)tyrosine (5), and abrusamide C (6). Compound 6 is a new compound, and compounds 1-4 were isolated from the plant for the first time.

[Effects of different amendments on contents of phenolic acids and specific microbes in rhizosphere of Pseudostellaria heterophylla.] / ä¸åŒæ”¹è‰¯æŽªæ–½å¯¹å¤ªå­å‚æ ¹é™ åœŸå£¤é šé ¸å«é‡åŠç‰¹å¼‚èŒç¾¤çš„å½±å“.

Pseudostellaria heterophylla is a perennial herbaceous plant in the family Caryophyllaceae. The tuberous roots of P. heterophylla are highly valued in traditional Chinese medicine and have a high market demand. However, extended monoculture of P. heterophylla results in a significant decline in the biomass and quality, and escalates disease and pest problems. Therefore, it is important to understand the underlying mechanism and biocontrol methods for consecutive monoculture problems. With "Zheshen 2" as an experimental material, the changes in the contents of main nutrients in soil, phenolic acids and specific microbes under monoculture and different amendments were analyzed by using high performance liquid chromatography (HPLC) and qPCR. The results showed that consecutive monoculture of P. heterophylla led to a decrease in yield by 43.5% while the microbial fertilizer treatment and the paddy-upland rotation could relieve the consecutive monoculture problems. Available nitrogen, available phosphorus, available potassium and total potassium were significantly higher in the consecutively monocultured soils than in the newly planted soils. But consecutive monoculture resulted in soil acidification. HPLC analysis showed that conse-cutive monoculture of this plant did not lead to a consistent accumulation of soil phenolic acids. At middle stage of root expansion and at harvest stage, most of phenolic acids were even higher in the newly planted soils than in the consecutively monocultured soils. Furthermore, qPCR analysis showed that the amounts of three specific pathogens identified previously (i.e. Fusarium oxysporum, Talaromyces helicus, Kosakonia sacchari) were significantly higher in the consecutively monocultured soils than in the newly planted soils. However, the microbial fertilizer treatment and the paddy-upland rotation resulted in a significant decline in the population of these specific pathogens and improved the soil environment. In conclusion, the consecutive monoculture problems of P. heterophylla may be due to the rapid proliferation of host-specific pathogens, rather than the deficiency of soil nutrients and the autotoxicity of allelochemicals in root exudates. The results in this study could provide the theoretical basis to explore the underlying mechanism of replanting disease of P. heterophylla and its biocontrol strategies.

[Typical Medicinal Plants Community and Diversity Research in Altay Region of Xinjiang].

Objective: To investigate typical medicinal plants of Rheum altaicum, Glycyrrhiza uralensis, Ferula sinkiangensis, Paeonia sinjiangensis, Ephedra equisetina, and Origanum vulgare in Altay region of Xinjiang, and to clarify their current existing situation under natural condition. Methods: Based on the 30 sample plots, ecological methods were used for investigating the community structure and species diversity of local medicinal plants. Results: 39 species belonging to 20 families,36 genera were recorded in the area. Xerophytic shrubs, half shrubs and herbs were dominant plants. The important values of six typical medicinal plants were 0. 32,0. 37,0. 42,0. 50,0. 49 and 0. 34,respectively. Six indexes of species diversity were generally low( 0. 63 ~ 0. 80),in which the species diversity indexes of Paeonia sinjiangensis, Ferula sinkiangensis, and Rheum altaicum were the highest( 0. 80,0. 80 and 0. 76),the species diversity indexes of Ephedra equisetina and Origanum vulgare were lower( 0. 74 and 0. 64),and the species diversity index of Glycyrrhiza uralensis was the lowest( 0. 63). Conclusion: Composition and community structure of medicinal plant species in Altay region of Xinjiang were relatively simple, which need to be protected urgently.

The efficacy of autologous platelet-rich plasma combined with erbium fractional laser therapy for facial acne scars or acne.

The aim of this study was to evaluate the efficacy of autologous platelet-rich plasma (PRP) combined with erbium fractional laser therapy for facial acne or acne scars. PRP combined with erbium fractional laser therapy was used for the treatment of 22 patients, including 16 patients who suffered from facial acne scars and 6 patients who suffered from acne scars concomitant with acne. Whole blood (40 ml) was collected from each patient, and following differential centrifugation, PRP was harvested. After using an erbium fractional laser, we applied PRP to the entire face of every patient. Digital photos were taken before and after the treatment for evaluation by dermatologists and the patients rated the efficacy on a 5-point scale. The erythema was moderate or mild, while its total duration was <3 days; after receiving the treatment three times, 90.9% of the patients showed an improvement of >50%, and 91% of the patients were satisfied; no acne inflammation was observed after treatment. PRP combined with erbium fractional laser therapy is an effective and safe approach for treating acne scars or acne, with minimal side-effects, and it simultaneously enhanced the recovery of laser-damaged skin.

[Correlation between dissolution in vitro and absorption in vivo of chuanping sustained release tablets].

OBJECTIVE: To investigate the correlation between dissolution in vitro and absorption in vivo of Chuanping sustained release tablets. METHOD: The ephedrine, pseudoephedrine were chosen as marker components, dissolution in vitro of Chuanping sustained release tablets in the different pH were tested by the rotating basket method and HPLC; urine drug levels were determined by HPLC and absorption fractions were calculated according to Wagner-Nelson's formula and deconvolution technique. RESULT: The linear regressive equation between the absorption percentage in vivo F and accumulative release percentage in vitro of Chuanping sustained release tablets was established as F(ephedrine) = 1.572 5f-20. 729 (R2 = 0.974 5); F(pseudoephedrine) = 1.237f-0.147 6 (R2 = 0.959 5). CONCLUSION: The results suggested that there was fine correlation between the absorption percentage in vivo and the accumulative release percentage in vitro of Chuanping sustained release tablets.

[Liposomal encapsulation of free anthraquinones in rhizoma et radix rhei and its quality control].

OBJECTIVE: To encapsulate the free anthraquiones in Rhizoma et Radix Rhei (rhein, chrysophanol, physcione, emodin and aloeemodin) in liposomes and characterize the liposomes. METHODS: The liposomes were separated from free drug with sephadex G-50 with HPLC determination of the free anthraquinones in liposomes, then its entrapment efficiency was calculated. Ethanol injection method was used to prepare the liposomes with the addition of a suitable amount Ca2+ in the medium. The influence of Ca2+ on the entrapment efficiency of free anthraquinones in Rhizoma et Radix Rhei in liposomes has been studied. Dynamic laser scatterometer and transmission electron microscopy were used to study the sizes and morphology of the liposomes. RESULTS: The entrapment efficiency of rhein, chrysophanol, physcione, emodin and aloeemodin in liposomes were 27.63%, 85.16%,100.14%, 99.77% and 66.16%, respectively. The total entrapment efficiency of free anthraquinones in Rhizoma et Radix Rhei was 80.67%. Ca2+ could greatly promote the liposomal encapsulation of free anthraquinones in Rhizoma et Radix Rhei from 13.98% - 23.78% to 81.42% - 89.43%. The liposomes were white spheres and its average size was mainly concentrated on 340 nm. CONCLUSION: The entrapment efficiency of the liposomal encapsulation of free anthraquinones in Rhizoma et Radix Rhei is high. The quality control method is simple and rapid with good repeatability.