The dietary isoflavone daidzein mitigates oxidative stress,apoptosis, and inflammation in CDDP‐induced kidney injury in rats: Impact of the MAPK signaling pathway

Cisplatin‐induced nephrotoxicity persists as a clinical problem despite several supportive measures to alleviate renal damage. Daidzein (DZ), a dietary isoflavone having antioxidant and anti‐inflammatory activity, is investigated in this study for protective effects against cisplatin‐induced renal injury in rats. DZ (25, 50, or 100 mg/kg; intraperitoneally; 10 days) was administered along with Cisplatin, single dose, on the 7th day of the experiment. On the 11th day, the rats were euthanized, and different samples were collected for analysis. Biochemical, histopathological, and molecular parameters were assessed to evaluate the effect of daidzein. Cisplatin injection resulted in renal dysfunction, lipid peroxidation that led to consumption of antioxidants, exaggerated apoptosis, and inflammation. These changes were associated with increase in the signaling proteins. DZ attenuated the toxic effects of cisplatin on the kidney at 100 mg/kg dose. The study concludes with the finding that daidzein imparts protection against the nephrotoxic effect of Cisplatin and can be considered as a novel, potential therapy.     

Tissue distribution of isoflavones in ewes after consumption of red clover silage

When discovered in the 50’s, isoflavones were suspected to provoke infertility syndrome in sheep grazing on clover. Many others effects of these phytoestrogens have been documented afterwards. To determine the distribution of isoflavone metabolites in ewe tissues and look for a link with their physiological impact, two ewes were fed a diet containing 50% red clover silage (variety Pawera) for one month with a daily intake of 157.6 mg/kg bw of total isoflavones. Only aglycones were fed due to the fermentation stage of the silage. At the sacrifice, isoflavone metabolites and aglycones were analyzed in blood, liver, kidney, lung, heart, muscle, ovaries, uterus, mammary glands, suprarenal glands, thymus, aorta, thyroid, pituitary gland, cerebellum, olfactory lobes, and brain hemispheres using HPLC-Coularray and LC-MS-MS. The major compounds recovered in tissues were equol and daidzein, present as glucuronides. Kidney concentrations were 10-fold higher than in other tissues. Penetration in brain was very limited. Reproductive organs contained higher concentrations of isoflavones than heart, muscle, or thymus. Distribution of isoflavones in ewe tissues is unequal and may reflect specific impact in some target tissues.     

对黄豆苷原具转化作用的耐氧突变株Aeroto-AUH-JLC140未知代谢产物分离、鉴定及抗氧化活性测定

【目的】与原出发菌株AUH-JLC140相比,耐氧突变株Aeroto-AUH-JLC140在其生长过程中产生一种未知物质,且该未知物质的产生与添加底物黄豆苷原无关。对该未知物质进行分离纯化和结构鉴定,并测定其产生动态及抗氧化活性。【方法】利用高效液相色谱对未知物质进行分离,经紫外吸收图谱、质谱、核磁共振氢谱和碳谱等分析,对未知物质进行结构鉴定;通过1,1-二苯基-2-苦味酰基自由基(DPPH)清除试验测定其抗氧化活性。【结果】Aeroto-AUH-JLC140产生的未知物质被鉴定为吲哚,接种后15 h菌株产吲哚最高,所产吲哚量为19.89 mg/L。浓度为0.2 mmol/L(即23.40 mg/L)的吲哚除对DPPH自由基具有明显清除作用外,还能有效降低脑心浸液(BHI)液体培养基的氧化-还原电位。【结论】耐氧突变株Aeroto-AUH-JLC140产生的未知代谢产物为吲哚,菌株通过产生吲哚降低培养基氧化-还原电位,进而为该菌株的生长提供适宜的低氧微环境。     

Production of pharmaceutically important genistein and daidzein from soybean flour extract by using β-glucosidase derived from Penicillium janthinellum NCIM 1171

Genistein and daidzein are isoflavones with well-recognized biological activities. Their glycosidic forms (genistin and daidzin, respectively) are abundant in some plants. In this study, production of β-glucosidase from Penicillium janthinellum NCIM 1171 and its use in the obtaining genistein and daidzein are described. In a response surface methodology (RSM) optimized medium, levels of β-glucosidase under submerged and solid state fermentation conditions were found to be 10.2 ± 0.75 IU/mL and 121 ± 9.3 IU/g, respectively. The supernatants resulting from submerged fermentation were subjected to ion exchange and gel filtration chromatography and the enzyme was purified in a 44.4 fold manner with final recovery of 39.75 %. The β-glucosidase was deduced to be a monomeric protein with a molecular mass of 97.18 kDa. The purified protein showed 46 % sequence coverage matching with β-glucosidase derived from Penicillium sp. ABP88968. The purified enzyme was effective in producing genistein and daidzein from soybean (Glycine max) flour extract with a yield of 92.3 and 95 %, respectively. To the best of our knowledge, this is the first report on the use of a wild type strain of P. janthinellum for the production of genistein and daidzein with high productivity and purity.     

Signaling mechanisms of daidzein-induced axonal outgrowth in hippocampal neurons

We aim to study the mechanisms underlying the neurotrophic effect of daidzein (Dz) in hippocampal neurons. Dz-enhanced axonal outgrowths manifested growth cone formation and increased immunostaining intensity of growth-associated protein 43 (GAP-43) in growth cones. Consistent with this, Dz increased GAP-43 phosphorylation and its membrane translocation without affecting total GAP-43 levels. In the presence of Dz, significant increase in the immunoreactivity for estrogen receptor (ER) β, but not ERα, was observed on the membrane of cell bodies and growing axons. Dz also induced the activation of protein kinase C α (PKCα), which was inhibited by the ICI182,780 pretreatment. Similarly, Dz-promoted axonal elongation was blocked by ICI182,780 and Gö6976. Moreover, Dz-stimulated activation of GAP-43 was specifically abolished by Gö6976, suggesting PKCα being the upstream effector of GAP-43. Taken together, our data suggest that Dz triggers an ERβ/PKCα/GAP-43 signaling cascade to promote axonal outgrowths in cultured hippocampal neurons.     

Rapid analysis of phytoestrogens in human urine by time-resolved fluoroimmunoassay

A time-resolved fluoroimmunoassay (TR-FIA), with europium labeled phytoestrogens as tracers, was developed for the quantitative determination of enterolactone, genistein and daidzein in human urine. The aim was to create a method for the screening of large populations in order to assess the possible correlations between the urinary levels and the risk of Western diseases.

After the synthesis of the 5′-carboxymethoxy derivative of enterolactone and 4′-O-carboxymethyl derivatives of daidzein and genistein, the respective compound was coupled to bovine serum albumin and then used as an antigen in the immunization of rabbits. The same derivatives of the phytoestrogen were used in preparing the europium tracers. After the enzymatic hydrolysis, the TR-FIA was carried out using the Victor 1420 multilabel counter. The method has sufficient sensitivity to measure the phytoestrogens at concentrations even below 5 nmol/l. The intra- and inter-assay coefficients of variation, at three different concentrations, varied from 1.9 to 5.3 and from 2.4 to 9.7, respectively.

We measured urinary enterolactone, genistein and daidzein in 215 samples from Finnish healthy women and found that more than 50% of the values ranged between 1 and 7, <0.1 and 0.6 and below 0.6 μmol/24 h, respectively. The TR-FIA method including only a hydrolysis step gave higher values than those measured by gas chromatography–mass spectrometry (GC–MS). However, the assay results by the present method showed strong correlation with those obtained by GC–MS. It is concluded that the TR-FIA is suitable for population screening of urinary phytoestrogens.     

Novel Approach for Evaluation of Estrogenic and Anti‐Estrogenic Activities of Genistein and Daidzein using B16 Melanoma Cells and Dendricity Assay

The effects of soy isoflavones, genistein and daidzein, which exhibit estrogenic, anti‐estrogenic and/or tyrosine kinase inhibitory activity, on the dendritic morphology of B16 mouse melanoma cells were quantitatively evaluated and compared with those of 17β‐estradiol (Est) and tyrphostin, a tyrosine kinase inhibitor. Dendricity was significantly stimulated in the order of Est >> genistein > daidzein = tyrphostin, but not by glycosides of genistein and daidzein. In competition experiments, Est counteracted the stimulatory activity of genistein and daidzein, but enhanced the activity of tyrphostin additively, suggesting that genistein and daidzein agonized Est. In addition, when the concentration ratios of genistein/Est and daidzein/Est were higher than 5000 and 50 000, respectively, genistein and daidzein agonized Est. In contrast, when the ratio of daidzein/Est was lower than 500, daidzein antagonized Est. Furthermore, genistein and daidzein competed with each other in stimulatory activity. These observations suggest that: 1) dendricity is stimulated by agonists (genistein and daidzein) of Est and tyrosine kinase inhibitors (genistein and tyrphostin), 2) the concentration ratio of isoflavone aglycone/Est is very important as one regulatory factor for estrogenic and/or anti‐estrogenic activity, and 3) daidzein antagonizes not only Est but also genistein. It is concluded that a quantitative and simple dendricity assay using B16 mouse melanoma cells is available to evaluate estrogenic and anti‐estrogenic activity in vitro.     

Multiple complexation of cyclodextrin with soy isoflavones present in an enriched fraction

In the present study we evaluated the complexation of daidzein/genistein/glycitein, present in an isoflavone enriched fraction (IEF), with β-cyclodextrin and 2-hydroxypropyl-β-cyclodextrin (HPβCD). Based on the increased solubility and higher complexation efficiency, IEF and HPβCD solid complexes were prepared by kneading, freeze-drying, co-evaporation, spray-drying and microwave. The solid complexes were characterized using Fourier transformed-infrared spectroscopy, differential scanning calorimetry, X-ray diffraction, scanning electron microscopy, and nuclear magnetic resonance spectroscopy, and the isoflavone content and solubility were determined by liquid chromatography. The results suggest that the isoflavones daidzein, genistein and glycitein may be externally associated to HPβCD as well as that isoflavones/HPβCD inclusion complexes are formed through the insertion of B-ring into the cyclodextrin cavity. Except for the freeze-dried IEF/HPβCD solid complex, all complexes showed similar content and solubility. In conclusion, the three isoflavones showed to be able to simultaneously complex with HPβCD.     

Hydroxylation of daidzein by CYP107H1 from Bacillus subtilis 168

CYP107H1, from Bacillus subtilis 168 known as fatty acid hydroxylase, showed the ortho-specific hydroxylation activity to daidzein, when coupled to the putidaredoxin reductase (camA) and putidaredoxin (camB) from Pseudomonas putida as the redox partners. The electron transfer system of the three proteins was constructed in Escherichia coli BL21 (DE3) system using the two plasmids containing different selection markers. The daidzein hydroxylation was demonstrated with recombinant whole cell and in vitro system using the artificial redox partner for electron transfer. The identification of the hydroxylation reaction yielding 7,3′,4′-trihydroxyisoflavone was elucidated using gas chromatography mass spectrometry (GC–MS). This oxidizing activity of CYP107H1 towards daidzein represents the new hydroxylation of aromatic compound as substrate.