Objective To understand the ambient PM2.5 component and the toxicity to primary cultured myocardial cells of neonatal rats. Methods Primary myocardial cells cultures were prepared from 1-day-old Sprague-Dawley rats and treated with PM2.5 suspension and its organic and water-soluble extracts at various concentrations for 24 h. The cellular viability was measured with MTT methods, and the beat of myocardial cells was observed and counted under inverted microscope. Results PM2.5 suspension and its organic and water-soluble extracts increased the viability of myocardial cells at the concentrations below 10.0 ?g/ml, but above this, they could significantly decrease the viability of myocardial cells with a dose-dependent manner. The toxicity of organic extract of PM2.5 was significantly higher than that of water-soluble extract. PM2.5 suspension and its organic and water-soluble extracts also dose-dependently inhibited the beat frequencies of myocardial cells. Conclusion PM2.5 and its extracts show a hormesis effect on the cultured myocardial cells in the case of the cellular viability is taken as the response parameter. PM2.5 and its extracts can inhibit the beat of myocardial cells.

Objective To investigate the milieu-dependent differentiation of primordial germ cells(PEGs) in the acute damaged liver microenviroment. Methods After PGCs were cultured and proliferated,these cells were labelled with 5-bromo-2-deoxyuridine(BrdU),then transplanted into the acute damaged liver by CCl_4 through tail vein.Two and four weeks later,the liver was extracted and 10?m-cryostat continuous sections were obtained.The existing and differentiation of the transplanted cells were identified by immunohistochemistry,immunofluorescence double staining and histochemistry for BrdU and hepatic-specific ALB,and the glycogen. Results Transplanted PGCs were found to be incorporated into the acute damaged liver and differentiated into hepatocytes,compensating for acute liver failure.Conclusion PGCs can be induced to differentiate into hepatocytes in the acute damaged liver microenvironment,and can be used for cellular hepatoplasty to treat severe liver disease.

75%(more than 2-vessel disease) and 50 persons with angia and non-diabetes were selected as control.Results The level of NT-proBNP was significantly higher in stable angina patients with diabetes(750?80 ng/L) than that in stable angina patients without diabetes(450?75 ng/L)(P

Objective To detect the expression of mitochondrial dynamics proteins (Mfn2 and Drp1) in thyroid squa?mous carcinoma cell line SW579 and the effects of Mitochondrial division inhibitor, Mdivi-1, on proliferation, apoptosis and invasion of SW579. Methods In SW579 and Nthy-ori 3-1 cell lines, the expression levels of Mfn2 and Drp1 were deter?mined by western blot while the transcription level of Mfn2 and Drp1 mRNA were measured by RT-PCR. Then, SW579 cells were divided into control group (DMSO, 0.1%) and Mdivi-1 low, medium and high dose groups (Mdivi-1 of 15,30 and 45μmol/L were incubated with cells for 16 hours respectively). Then the ability of cell proliferation was detected using MTT assay, the mitochondrial membrane potential was determined by fluorescence spectrophotometer, the expression levels of cy?tochrome C and Caspase-3 were quantified by Western blot and the transcription level of the Cyt C and Caspase-3 mRNA were determined by RT-PCR. The ability of invasion in each group was measured with Transwell assays. Results Com?pared with Nthy-ori 3-1, the mRNA transcription and protein expression levels of the Mfn2 was remarkably decreased, while the mRNA transcription and protein expression of the Drp1 was significantly increased in SW579 cells (P<0.01). Compared with control group, the cell survival rates and mitochondrial membrane potential of SW579 were decreased dramat?ically (P<0.01). The mRNA transcription and protein expression of the cytochrome C and Caspase-3 were increased dra?matically (P<0.01) and the capability of invasion was markedly decreased in all the Mdivi-1 groups in a dosage dependent manner compared with those in control groups (P<0.01). Conclusion Abnormal mitochondrial dynamics may be involved in thyroid squamous cell carcinoma SW579 cells;Mdivi-1 can inhibit the cell proliferation and invasion as well as induce apoptosis.

Objective To research the functional role of thyroidal motilin and the effects of electric excitation of the paraventricular nuclei(PVN) on gastric motility and the levels of motilin in thyroid and plasma.Methods The expression of motilin in rat and human thyroid was detected by immunofluorescence staining.A phase Ⅲ-like contraction was recorded before and after thyroidectomy and after PVN excitation.The changes in concentrations of plasma FT3,FT4 and motilin were determined via radioimmunoassay (RIA).c-Fos expression of PVN after thyroidectomy and motilin expression in thyroid after PVN excitation were observed by immunohistochemical staining.Results There were motilin immunoreactive cells in rat and human thyroid.The phase Ⅲ-like contraction and concentration of motilin in plasma decreased significantly when measured on the second and fourth days after thyroidectomy(2d,P＜0.01 ;4d,P＜0.05).The expression of c-Fos in PVN after thyroidectomy was significantly increased(P＜0.05).An electric excitation of PVN could increase the concentration of motilin in plasma and thyroid and increase corresponding gastric motility in rats (P ＜0.05).The increased phase Ⅲ-like contraction by PVN excitation could be partially inhibited by administration of motilin receptor antagonist,GM-109 (P＜0.05).Excitation of PVN in thyroidectomized rats resulted in lower plasma motilin and less intense phase Ⅲ-like contraction of stomach,as compared with the sham operated control group(P＜0.05).Conclusion Motilin from the thyroid may be secreted into the peripheral plasma to affect gastric motility and PVN may modulate gastric motility and motilin expression in the thyroid.

In this work, we developed PEO-PPO-PEO micelles loaded with irinotecan hydrochloride (CPT-11) using breast cancer resistance protein (BCRP) inhibitory material PEO20-PPO70-PEO20, and studied its mechanism of decreasing CPT-11 induced delayed diarrhea and intestinal toxicity. BCRP-overexpressing MDCKII (MDCKII/BCRP) cells were used to evaluate the effect of PEO20-PPO70-PEO20 and PEO-PPO-PEO micelles on transmembrane transport of CPT-11 in vitro. The biliary excretion, delayed diarrhea and intestinal damage of CPT-11 loaded PEO-PPO-PEO micelles of rats were investigated. The results showed that the obtained micelles could decrease the biliary excretion of CPT-11, ameliorate delayed diarrhea and intestinal toxicity of rats through inhibiting BCRP-mediated CPT-11 efflux. PEO-PPO-PEO micelles were promising carriers to reduce intestinal toxicity of CPTs.

[Objective] To investigate the effects of the bioactive constituents of green tea polyphenols epigallocatechin gallate (EGCG) on low density lipoprotein receptor (LDLR) function of HepG2 cells.[Methods] The optimal concentration and cell proliferation of HepG2 cells were determined by CCK8 assay,and Western blotting was used to determine LDLR and PCSK9 protein levels,respectively,and LDL uptake in HepG2 cells was detected by fluorescence microscope.[Results] EGCG elevated LDLR protein expression,reduced PCSK9 protein expression and promoted LDL uptake in HepG2 cells.[Conclusion] EGCG may increase LDLR abundance by down-regulating PCSK9 protein and attenuating LDLR protein degradation,which providing a new approach for lipid lowering therapy.

Objective:This study aimed to explore the effects ofnesfatin-1 on gastric distension (GD)-sensitive neurons in the basomedial amygdala (BMA) and the potential mechanism for nesfatin-1 to regulate gastric motility through the arcuate nucleus (Arc).Methods:The projection of nerve fiber and expression of nesfatin-1 were observed by retrograde tracing and fluo-immunohistochemistry staining;The nuclei microinjection and nuclei electrical stimulation,extracellular discharges of single unit neuron were used to observe the effects ofnesfatin-1 on the GD neurons;Gastric motility recording in vivo were used to monitor the effects ofnesfatin-1 on the amplitude of constriction and frequency of gastric motility in conscious rats.Results:NUCB2/Nesfatin-1/fluorogold-double labeled neurons were from ARC to BMA;Nesfatin-1 could excited the firing rate of most of the GD-E neurons (4.25± 1.02 Hz vs.5.32± 1.17 Hz,P＜0.01) and decreased the firing rate of most of the GD-I neurons (3.73± 0.92 Hz vs.2.64± 0.86 Hz,P＜0.01),inhibited the gastric motility,amplitude and frequency,SHU9119 could weaken the responses induced by nesfaton-1;Electrical stimulation of the Arc,the firing rate of nesfatin-1-induced GD-response neurons (GD-E:5.14± 1.32 Hz vs.6.75± 1.84 Hz,P＜0.05;GD-I:2.84± 0.86 Hz vs.4.05± 1.12 Hz,P ＜0.05) and the gastric amplitude and frequency were increase.Conclusion:It was suggested that nesfatin-1 in the BMA plays an important role in decreasing gastric motility and the Arc may be involved in this regulation process.

Objective:The current study investigated the effects of nesfatin-1 in the hypothalamic paraventricular nucleus (PVN) on gastric motility and the regulation of the lateral hypothalamic area (LHA).Methods:The projection of nerve ?ber and expression of nesfatin-1 were observed by retrograde tracing and fluo-immunohistochemistry staining;The nuclei microinjection and nuclei electrical stimulation,extracellular discharges of single unit neuron were used to observe the effects of nesfatin-1 on the GD neurons;Gastric motility recording in vivo were used to monitor the effects of nesfatin-1 on the amplitude of constriction and frequency of gastric motility in conscious rats.Results:Nesfatin-1 inhibited the majority of the GD-E neurons(1.97± 0.12 Hz vs.1.15± 0.07 Hz) and excited GD-I neurons (1.74± 0.10 Hz vs.3.04± 0.18 Hz) in the PVN,which were weakened by oxytocin receptor antagonist H4928 (GD-E:1.38± 0.08 Hz,P＜0.05 vs.nesfatin-1;GD-I:2.49± 0.15 Hz,P＜0.05 vs.nesfatin-1).Gastric motility experiments showed that administration ofnesfatin-1 in the PVN decreased gastric motility.Retrograde tracing and immunofluorescent staining showed that nucleobindin-2/nesfatin-1 and fluorogold double-labeled neurons were observed in the LHA.Electrical LHA stimulation excited the firing rate of GD-responsive neurons (GD-E:2.06± 0.12 Hz vs.4.23± 0.21 Hz,GD-I:1.61± 0.09 Hz vs.4.83± 0.25 Hz) in the PVN.Pre-administration of an antinucleobindin-2/nesfatin-1 antibody in the PVN strengthened gastric motility,decreased GD-E neurons (1.74± 0.10 Hz vs.3.04± 0.18 Hz) and excited the discharging of the GD-I neurons(4.15± 0.18 Hz vs.4.83± 0.25) induced by electrical stimulation of the LHA.Conclusion:Nesfatin-1 in the PVN could serve as an inhibitory factor to inhibit gastric motility,which might be regulated by the LHA.

Objective:To investigate the effects of Orexin peptides on feeding and energy metabolism in mice.Methods:The mice were divided into two groups:feeding group and metabolic group.The feeding group were injected with different doses (1,3 and 10 nmol) of orexin-A and orexin-B to observe their effects on feeding and the activity of tyrosine hydroxylase in liver.We used the metabolic cages and observed the changes of respiration rate and respiration rate of mice were under light condition,dark condition and fasting condition.Results:Compared with the control group,1 nmol and 10 nmol orexin-A significantly stimulated mice to feed (P ＜0.05) within 4 hours after injection,and the effect of 3 nmol orexin-A on feeding was not obvious,but increase the activity of tyrosine hydroxylase.Any dose of orexin-B did not show a stimulating effect on mice feeding.(P ＞0.05).In the light cycle,orexin-A could significantly reduce the respiration rate (RQ),the metabolic rate was significantly increased (P ＜0.05);In the dark cycle,orexin-A had no effect on RQ,but the metabolic rate was significantly rised (P ＜0.05);But the injection of orexin-A in fasting mice induced a brief increase in RQ and a significant increase in metabolic rate (P ＜0.05).Conclusion:Orexins may play an important role in regulating feeding and energy metabolism in mice.