Objective To explore tumor inhibitory effect of the lentiviral vectors mediated small interfering RNA(siRNA)targe‐ting survivin gene on human lung adenocarcinoma xenografts in nude mice in vivo .Methods The lentiviral vector expressing sur‐vivin‐siRNA was prepared .Then established human lung adenocarcinoma‐bearing nude mice model ,and divided nude mice into three groups ,including the blank control group(PC group) ,blank vector group(NC group) and experiment group(RNAi group) ,treated with physiological saline ,blank viral vector and siRNA respectively .The lentiviral vectors expressing survivin‐siRNA were locally injected in tumor issues of nude mice in the RNAi group .Then observed the curve about changes of tumor volume in different time . The expression levels of protein and mRNA were detected by using Western blot and reverse transcription polymerase chain reac‐tion(RT‐PCR) .The histogram of tumor cell cycle were examined by using flow cytometry .Results The rate of tumor inhibition of lentiviral vectors mediated survivin‐siRNA on lung adenocarcinoma in nude mice was 46 .07% .There were significant differences in tumor weight between siRNA group and NC group ,PC group(P<0 .05) ,while no statistically significant difference was found be‐tween NC group and PC group(P>0 .05) .Compared with NC group and PC group ,the expression levels of survivin mRNA and protein were decreased ,and rates of inhibition were 72 .00% and 53 .00% respectively .The percentage of G1 phase cells was in‐creased ,whereas the percentages of S phase cells was decreased .Conclusion The lentiviral vectors mediated siRNA could effective‐ly inhibit survivin gene expression on human lung adenocarcinoma xenografts in nude mice and markedly induce the apoptosis of tumor .

OBJECTIVE:To observe therapeutic efficacy and safety of recombinant human brain natriuretic peptide (rhBNP) in the treatment of acute decompensated heart failure (ADHF). METHODS:129 ADHF patients admitted in our hospital during Jul. 2013-Jul. 2015 were randomly divided into observation group(69 cases)and control group(60 cases). Control group was giv-en routine treatment. Observation group was additionally given rhBNP 1.5 μg/(kg·d)vein shock(d1),and then rhBNP 1 mg+5%Glucose injection 100 ml by 0.007 5 μg/(kg·min),ivgtt(d2-4). Treatment courses of 2 groups lasted for 7 d. Therapeutic efficacy and heart function indexes [left ventricular ejection fraction(LVEF),left ventricular end-diastolic diameter(LVDd)] were observed in 2 groups as well as NT-proBNP level,medication fluid intake and urine volume 24 h after medication. The occurrence of ADR was observed. RESULTS:3 cases dropped out and 66 cases were included finally in doservation group. Total effective rate of AD-HF therapy in observation group (96.97%) was significantly higher than in control group (86.67%),with statistical significance (P<0.05). There was no statistical significance in LVEF,LVDd and NT-proBNP between 2 groups before treatment(P>0.05). Af-ter treatment,LVEF of 2 groups were increased significantly while LVDd were decreased significantly;LVEF of observation group [(42.3±3.6)%] was significantly higher than in control group[(37.9±3.3)%],while LVDd of observation group [(55.5± 3.6)%] was significantly lower than in control group[(61.3 ± 3.4)%]. NT-proBNP levels of 2 groups were decreased significant-ly,and the observation group [(1 389.5±29.6)pg/ml] was significantly lower than the control group [(2 778.0±26.8)pg/ml]. 24 h after medication,urine volume of 2 groups were significantly higher than medication fluid intake,and urine volume of observation group [(1 781.4 ± 89.7)ml] was significantly higher than that of control group [(1 372.6 ± 78.3)ml],with statistical significance (P<0.05). There was no statistical significance in the incidence of ADR between observation group (3.03%) and control group (5.00%),without statistical significance(P>0.05). CONCLUSIONS:rhBNP is significantly effective for ADHF,promotes heart function recovery and reduces renal function injury with good safety.

Objective To investigate the effects of high-frequency repetitive transcranial magnetic stimulation (rTMS) at different intensities on the ultrastructure of an ischemic brain penumbra and the expression of brainderived neurotrophic factor (BDNF) using rats with permanent middle cerebral artery occlusion (MCAO).Methods Forty-two rats were randomly divided into a blank control group,an MCAO model control group,a sham stimulation control group and an rTMS group.The rTMS group was divided further into 3 subgroups:an 80％ of motor threshold (MT) subgroup,a 100％ of MT subgroup and a 120％ of MT subgroup.The cerebral infarction model was established by right MCAO.rTMS treatment was given 24 hours after the MCAO model was successfully established.The rTMS group and sham stimulation control group were given 20 Hz rTMS with the planned intensities.The MCAO model control group was not given any stimulation.After 14 days of treatment,transmission electron microscopy,immunohistochemical and Western blotting ( WB ) methods were used to investigate the ultrastructure of the ischemic penumbra and the expression of BDNF.Results Damage reflected in the ultrastructure in the 3 rTMS subgroups was less than in the model control group and the sham stimulation control group.Expression of BDNF protein increased significantly in 100％ of the MT group and blank control group rats as compared with that in the sham stimulation control group,while the blank control group and the 3 rTMS subgroups had no statistically significant difference in comparison with the MCAO model control group.The expression of BDNF protein had no statistically significant difference between any of the groups.Conclusion 20 Hz rTMS might,especially at 100％ of the MT,promote the recovery of the ultrastructure of neural tissues in the ischemic penumbra after acute cerebral infarction and enhance the expression of BDNF in the ipsilesional hemisphere.This may be one of the important mechanisms of rTMS's effectiveness in the treatment of ischemic stroke.

Objective To investigate the effects of 20 Hz repetitive transcranial magnetic stimulation (rTMS) with different intensities on neurobehavior and expression of glial fibrillary acidic protein (GFAP) in ischemic penumbra of rats with cerebral infarction,so as to explore the probable mechanism. Methods Forty-three rats were randomly divided into a blank control group( n =7 ),a model control group( n =7),a sham stimulation control group(n =8) and a rTMS group (n =21) ; the rTMS group was further subdivided into 3 subgroups:80％ MT subgroup,100％ MT subgroup and 120％ MT subgroup,with 7 rats in each subgroup.The cerebral infarction model was established by right middle cerebral artery occlusion (MCAO) in each group except the blank control group.The 3 rTMS subgroups were given 14 successive blocks of 20 Hz rTMS with corresponding intensity.The sham stimulation control group received sham treatment (without any output).The model control group was given no stimulation,and the blank control group did not receive any special treatment.Functional assessments were performed at 3 different time points.After 14-day treatment,the expression of GFAP proteins in ischemic penumbra were detected by immunohistochemistry technique. Results Functional outcome reflected from 3 behavioral tests in 100％ MT subgroup after 14-day stimulation was better than 1 day after operation,while in the other rTMS subgroups functional outcomes were just better in 2 behavioral tests.The expressions of GFAP in 3 rTMS subgroups were all less than that in model control group. Conclusions The 20 Hz rTMS with 80％ MT and 100％ MT might be safe and effective to improve the functional outcome in rats with acute cerebral infarction,especially 100％ MT.Decrease of expression of GFAP in ischemic penumbra might be one of the mechanisms of beneficial effects of rTMS in ischemia brain injury.

Aspergillus niger, as an important industrial fermentation strain, is widely applied in the production of organic acids and industrial enzymes. With the development of diverse omics technologies, the data of genome, transcriptome, proteome and metabolome of A. niger are increasing continuously, which declared the coming era of big data for the research in fermentation process of A. niger. The data analysis from single omics and the comparison of multi-omics, to the integrations of multi-omics based on the genome-scale metabolic network model largely extends the intensive and systematic understanding of the efficient production mechanism of A. niger. It also provides possibilities for the reasonable global optimization of strain performance by genetic modification and process regulation. We reviewed and summarized progress in omics research of A. niger, and proposed the development direction of omics research on this cell factory.
Aspergillus niger ; genetics ; Fermentation ; Genome, Fungal ; Metabolic Networks and Pathways ; Metabolome ; Proteome ; Transcriptome