Flavonoid compounds improve hippocampal neuro-genesis and cognitive dysfunction in mice / 中国药理学与毒理学杂志

OBJECTIVE To investigate the improve-ment functions of flavonoid compounds on temozolomide(TMZ)-,aging-or AD model-induced dysregulation of hip-pocampal NSC lineage progression,retardancy of den-dritic spine maturation in new-born neurons,as well as impairment of hippocampal-related learning and memory.METHODS We applied 30-week-old neural stem cell(NSC)specific promoter Nestin-GFP and NestinCreERT2:Rosa26-LSL-tdTomato transgenic mice and 16-week-old AD model 5XFAD transgenic mice,together with hippo-campal microinjection(ih),endogenous fluorescence trac-ing and immunofluorescent staining.RESULTS Both fla-vonoid compound A and its functional derivative flavo-noid compound B dose-dependently improved TMZ-,aging-or AD-induced defects of hippocampal NSC lin-eage progression and the maturation of dendritic spines of newborn neurons,thereby improving hippocampus related learning and memory.CONCLUSION This paper provides a new idea and treatment strategy for the devel-opment of new flavonoids that can promote neurogene-sis for neurodegenerative diseases and aging.

Optimization of Flavonoid Production in Plant Cell Culture of Thevetia peruviana Elicited with Methyl Jasmonate and Salicylic Acid

Abstract Thevetia peruviana is a medicinal plant that has valuable secondary terpenoid-type metabolites and phenolic compounds. Some flavonoid compounds of pharmaceutical interest stand out in the latter group. The concentration of these bioactive compounds in natural conditions is limited by environmental; therefore, it has been considered necessary to make in vitro plant cell suspension cultures that admit the use of elicitors to increase the content of active principles. Accordingly, in this study, for the optimization of flavonoid production in cell suspension culture of T. peruviana, different parameters related to elicitation with methyl jasmonate (MeJa), and salicylic acid (SA) were evaluated, at stirred flask scale. Firstly, 3 μM MeJa and 300 μM SA were added separately in cell cultures of T. peruviana, to assess their potential effects. Secondly, several experimental conditions were evaluated, for optimization purpose. In the first part, MeJa and SA increased the total flavonoid content, in 1.07 and 1.3 times, respectively, compared to the control culture; in the second part, total flavonoid content produced in MeJa mediated cell suspension cultures were 4.14 mg QE/g DW (milligrams of quercetin equivalent per gram of dry biomass) with: concentration 0.3 μM, addition time day 5 and harvest time 90 h. On the other hand, total flavonoid content produced in SA mediated cell suspension cultures were 3.75 mg QE/g DW with: concentration 100 μM, addition time day 0 and harvest time 96 h. Elicitation of cell suspension cultures of T. peruviana with MeJa and SA under their ideal parameter values increased flavonoid content.

Research Progress of Regulatory Effect and Mechanism of Flavonoids on Vascular Endothelial Cell Injury / 中国实验方剂学杂志

To investigate the effect of flavonoid compounds on vascular endothelial cells. Vascular endothelial cells were located between plasma and vascular tissue, and can complete the metabolic exchange of plasma and interstitial fluid, synthesize and secrete a variety of biologically active substances, so as to ensure the normal contraction and relaxation of blood vessels, and maintain the tension of blood vessels. Besides, it can regulate blood pressure and the balance of blood coagulation and anticoagulation, and maintain normal blood flow and long-term patency of blood vessels. Endothelial cell damage can cause a series of cardiovascular diseases, such as hypertension and coronary heart disease. Flavonoids are widely found in nature. Because these compounds are mostly yellow or light yellow, they contain ketone groups in the molecule, which are called flavones. Flavonoids are widely distributed, mostly in higher plants and ferns. Various flavonoid compounds, such as flavonoids, flavonols, flavanones isoflavones and flavanones, can protect vascular endothelial cells. This article reviews relevant findings published in domestic and foreign journals. It is found that flavonoids have effects in resisting inflammation, reducing blood vessel fragility, improving blood vessel permeability, lowering blood lipids and cholesterol, vasodilating and resisting hemagglutinating, with the same effect as phytoestrogens. They can reduce vascular endothelial cell damage through anti-inflammatory, anti-oxidative stress, stable mitochondrial function, and regulating nitric oxide（NO）. It can be used in clinic to treat diseases, such as insufficient cerebral blood supply, sequelae caused by cerebral hemorrhage, hyperviscosity, cerebral thrombosis, coronary heart disease and angina pectoris.

Prevention and treatment of cardio-cerebrovascular diseases by daidzein:research advances / 国际药学研究杂志

Soy isoflavones are a category of natural isoflavones with various biological activities.Daidzein is an isoflavone com?pound,which exhibits many kinds of bioactivities,such as anti-tumor,cardio-cerebral vascular protection,blood lipid reduction,the anti-osteoporosis,anti-atherosclerosis and endocrine system regulation.In addition,daidzein intake is associated with reducing risk of cardio-cerebrovascular diseases.In this paper,we review the research progresses of daidzein in the prevention and treatment of cardio-cerebrovascular diseases in terms of its protectire effect on blood vessels,brain and myocardium in order to provide a reference for fur?ther investigation on the prevention and treatment effect of daidzein on cardio-cerebrovascular diseases to expand its clinical applica?tion.

Preliminary study of flavonoids affecting cAMP level in cannabinoid receptor overexpressed cells / 上海交通大学学报（医学版）

Objective·To evaluate the effects of flavonoids on cyclic adenosine monophosphate (cAMP) level in cannabinoid receptor (CBR) overexpressed cells. Methods·Eukaryotic expression vectors GV144-CB1R and GV144-CB2R were constructed, and transfected into HEK-293 cells to establish CBR overexpressed cell lines. Several flavonoid compounds were studied by measuring the change of cAMP level in CBR-overpressed HEK-293 cell lines. Results·The CBR overexpressed cell lines were constructed successfully. cAMP level in CBR-overexpressed HEK-293 cells decreased after incubation with flavonoid compounds. And these effects were selective for CB2R overexpressed cells. Conclusion·All flavonoids studied exhibited decreasing effect on cAMP level in CBR-overexpressed cells at μmol/L level.

Flavonóides: constituição química, ações medicinais e potencial tóxico / Flavonoids: Chemical composition, medical actions and toxicity

Os flavonóides são um grupo de substâncias naturais com estrutura fenólica variável, e portanto, de considerável interesse científico e terapêutico. Assim, teve-se por objetivo realizar uma revisão bibliográfica, de forma extensa porém objetiva, sobre as principais ações terapêuticas e a toxicidade das principais classes de flavonóides. A partir desta revisão da literatura, verificou-se, em ensaios pré-clínicos, que estes compostos tem o potencial de modificar a biossíntese de eicosanoides (resposta anti-prostanoide e antiinflamatoria); de proteger o colesterol-LDL da oxidacão (inibindo formação de placa aterosclerotica); de prevenir a agregacão plaquetária tendo efeitos anti-trombóticos; de promover o efeito anti-hipertensivo e anti-isquêmico; de regenerar antioxidantes primários, como a vitamina C, no organismo; de ter efeito antipromocionais na carcinogênese de alguns tipos de câncer; de amenizar os sintomas da menopausa; de aumentar a lipólise; de desacelerar o processo degenerativo em bainhas de mielina; de aumentar a secreção de insulina; de aumentar a expressão de genes responsáveis pela produção de proteínas sinápticas; de estimular os linfócitos B a produzirem anticorpos e de possuir atividade leishmanicida. Quanto a toxicidade dos flavonóides, estudos demostram que em altas doses e em utilização crônica, estes compostos desencadeiam reações alérgicas em humanos; modificam as membranas de hepatócitos causando necrose e morte celular em ratos; causam mutagenicidade e clastogenicidade em medula óssea de camundongos; interferem de forma significativa no funcionamento da tireóide e inibe a ação de citocromos P450 causando alterações drásticas no funcionamento do fígado de roedores. Dessa forma, pode-se verificar que os flavonóides tem uma grande capacidade terapêutica quando bem utilizado, devendo-se sempre levar em consideração doses e tempo de exposição aos organismos aos quais são administrados. Essas considerações são importantes por servirão de base para o estabelecimento de doses seguras e eficazes de utilização dos flavonóides para a população.

Flavonoids are a group of natural substances with variable phenolic structure and therefore, considerable scientific interest and therapeutic. Thus, the objective was to conduct a literature review of but objective extensively on major therapeutic actions and on the toxicity of flavonoids class. In this literature review, it was found that, in preclinical studies, these compounds have the potential to modify the biosynthesis of eicosanoids; protect LDL cholesterol from oxidation; prevent platelet aggregation with antithrombotic effects; promote the antihypertensive and anti-ischemic effect; regenerate primary antioxidants like vitamin C in the body; not to promote some carcinogenic effects on certain types of cancer; alleviate menopausal symptoms; increase lipolysis; slow down degenerative process in myelin sheaths; increase insulin secretion; increase the expression of genes responsible for the production of synaptic proteins; stimulate lymphocytes B to produces antibodies and have leishmanicydal activity. About the toxicity of flavonoids, studies show that, at high doses and in chronic use, these compounds trigger allergic reactions in humans; modify the membranes of hepatocytes, causing necrosis and cell death, in rats; cause mutagenicity and clastogenicity in mouse bone marrow, interfere significantly on thyroid function and inhibit the action of cytochrome P450, causing drastic changes in the function of the liver in rodents. Thus, it can be seen that the flavonoids have a wide therapeutic capacity when properly used, taking into account doses and exposure times to whom they are administered. These considerations are important because they set the bases for the establishment of safe and effective doses of flavonoids on the population.

Extraction and purifiction process of total flavonoid compounds in Scutellaria baicalensis / 中成药

AIM: To determine the suitable condition and the optimal parameters for the extraction and purifiction process of total flavonoid compounds in Scutellaria baicalensis. METHODS: It was investigated by orthogonal experiment design of form L_9(3~4) with the extraction percentage of the total flavonoid compounds and baicalin from Scutellaria baicalensis as the standard. RESULTS: The optimal condition of extraction was with water as much as ten times of the medicine amount and was boiled for 2 h and three times,and the optimal condition of purifiction was as follows: solution concentration 0.25 g(crude medicinal materials) /mL,adjusting pH to 2,80 ℃ heat preservation up to 60 min, 50% alcohol as precipitant and the precipitated adjusted pH to 4.0. CONCLUSIONS: The optimal process is rational,practical and adapted to industry production.