Untargeted and Targeted Metabolomics Reveal the Underlying Mechanism of Aspirin Eugenol Ester Ameliorating Rat Hyperlipidemia via Inhibiting FXR to Induce CYP7A1.

Hyperlipidemia is an important lipid disorder and a risk factor for health. Aspirin eugenol ester (AEE) is a novel synthetic compound which is made up of two chemical structural units from aspirin and eugenol. Therapeutic effect of AEE on hyperlipidemia has been confirmed in animal model. But the action mechanism of AEE on hyperlipidemia is still poorly understood. In this study, we investigated the effects of AEE on liver and feces metabolic profile through UPLC-Q-TOF/MS-based untargeted metabolomics in hyperlipidemia hamster induced with high fat diet (HFD), and the effects of AEE on the expression of genes and proteins related to cholesterol and bile acid (BA) in HFD-induced hyperlipidemia SD rat. The concentrations of 26 bile acids (BAs) in the liver from hyperlipidemia SD rat were also quantified with the application of BA targeted metabolomics. The results of untargeted metabolomics showed that the underlying mechanism of AEE on hyperlipidemia was mainly associated with amino acid metabolism, glutathione metabolism, energy metabolism, BA metabolism, and glycerophospholipid metabolism. AEE induced the expression of the BA-synthetic enzymes cholesterol 7α-hydroxylase (CYP7A1) by the inhibition of BA nuclear receptor farnesoid X receptor (FXR) in liver, which resulted in accelerating the conversion of cholesterol into bile acids and excrete in feces. The results of BA targeted metabolomics showed that AEE elevated the glycine-conjugated BA level and decreased the tauro-conjugated BA level. In conclusion, this study found that AEE decreased FXR and increased CYP7A1 in the liver, which might be the possible molecular mechanisms and targets of AEE for anti-hyperlipidemia therapies.

Effect of DNA methyltransferase 1 and methyl-CpG-binding protein 2 abnormal expression on cervical lesions and related interaction / 中华流行病学杂志

<p><b>OBJECTIVE</b>To explore the effect of DNA methyltransferase 1 (DNMT1) and methyl-CpG-binding protein 2 (MeCP2) on cervical cancer and cervix precancerous lesion.</p><p><b>METHODS</b>74 patients with cervix squamous cell carcinoma(SCC), 52 patients with cervical intraepithelial neoplasm I (CIN I), 60 patients with cervical intraepithelial neoplasm II - II (CIN II-III)and 58 patients with histologically diagnosed cervix inflammation(CI), were included in this study. Information as demography, reproductive history, life style, HPV infection were collected. Western Blot were used to detect the expression of DNMT1 protein and MeCP2 protein. Real-time PCR was used to detect the expression of DNMT1 and MeCP2 mRNA.</p><p><b>RESULTS</b>Levels of DNMT1 and MeCP2 protein expression increased gradually with the deterioration of cervical lesion (H = 94.33, P < 0.001;F = 21.580, P < 0.001). Along with the deterioration of cervical lesion, levels of DNMT1 and MeCP2 mRNA expression were gradually increasing( F = 4.758, P = 0.003; F = 7.804, P < 0.001). Data from Correlation analysis showed that both protein (r = 0.287, P < 0.001) and mRNA(r = 0.179, P = 0.005)were positive correlated with DNMT1 and MeCP2.</p><p><b>RESULTS</b>of our study indicated that there was an additive interaction between high-expression of DNMT1 protein and high-expression of MeCP2 protein in SCC or CIN II-III. However, there was an additive interaction between high-expression of DNMT1 mRNA and high-expression of MeCP2 mRNA in SCC or CIN II-III.</p><p><b>CONCLUSION</b>Results from our study revealed the fact that both high expression of DNMT1 protein and high expression of MeCP2 protein could increase the risk of cervix cancerization. According to our findings, there might be a synergistic action existed between DNMT1 and MeCP2 during the progression of cervix cancelation.</p>

Collection of peripheral blood stem cells from ABO incompatible allogeneic donors by using blood cell separator / 中国实验血液学杂志

To evaluate the yield of the blood cell separator for collection of peripheral blood stem cells (PBSC) from ABO major and (or) minor incompatible allogeneic donors and the feasibility of PBSC component infusion to the recipients without removal of erythrocytes or plasma, the Cobe Spectra (Version 6.1) blood cell separator was utilized to collect PBSC component from 9 allogeneic donors. Of all the donors, 4 were ABO major incompatible, 2 were minor incompatible and the other 3 were both major and minor incompatible to corresponding recipients. In each cycle, different amount of PBSC component was harvested, and the variable volume plasma chased the cells into the bag was adjusted according to the ABO incompatibility. The nucleated cell count, percentage of mononuclear cell, number of CD34(+) cell and percentage of viable cell (trypan blue excluding rate) in the component were detected. At the time of infusion, a series of protective measures to the renal function of recipients were taken. The results showed that apheresis was twice performed on these eight donors to collected enough PBSC for transplantation or cryopreservation, except one apheresis was enough for cell amount needed by transplantation, as the donor's body weight was much heavier than that of the recipient. Altogether 17 apheresises were performed, the mean yield of nucleated cells was 3.77 x 10(10), in which 97% to 99% were mononuclear cells (MNC). The harvested number of CD34(+) cell was 8.62 x 10(6)/kg. All the trypan blue exclusion rate was 100%. In ABO major incompatible or both major and minor incompatible component, there were 8 - 10 ml packed erythrocytes; in ABO minor incompatible component, there were 80 - 120 ml of plasma. These components were infused into the recipients without removal of erythrocytes or plasma and no haemolytic reaction was observed in any recipient, and their hematopoietic functions soon recovered. Results suggest that enough PBSC can be acquired by using blood cell separator Cobe Spectra (Version 6.1), with the modified separation factors, and the collected PBSC component can be safely infused into the ABO incompatible recipients without removal of erythrocytes or plasma.