Objective To investigate the apoptotic effects of hypertrophic scar fibroblast (HSF) induced by HMME-PDT.Methods Fibroblasts were cultured from nontreated hypertrophic scars,and cells at passages 4-6 were used for the experiments (photosensitizer dose 4 μg/ml,λ630 nm,pow er density 10 mw/cm2,energy fluence 2.5 J/cm2).Morphological and biochemical changes in fibroblasts were assessed by Hoechst 33258 staining and fluorescence microscopy.The rate of apoptotic or necrotic cells was detected by flow cytometry (FCM) through double staining of Annexin V -FITC and popodium iodide (PI),respectively.Results Marked morphological features of cell apoptosis were viewed under the fluorescent microscope through Hoechst 33258 staining.The analysis of FCM indica ted that the apoptotic rate was significantly increased after HMME PDT [(34.82 ± I.42) ％ vs (3.12±0.28) ％,P＜0.05],and apoptotic rate was higher than necrosis rate [(14.65±1.02) ％ vs (34.82±1.42) ％,P＜0.05].Conclusions Low level exposure to 630 nm PDT mediated by HMME appears to induce fibroblast apoptosis.

ObjectiveTo investigate the role of caspase 3 in HMME-induced apoptosis in hypertrophic scar fibroblasts (HSFs).MethodsFibroblasts were obtained from 10 patients with untreated hypertrophic scar,and subjected to a primary culture.After 4 to 6 passages of culture,the HSFs were divided into 3 groups to remain untreated(control group),be treated with HMME followed by photodynamic therapy (HMME-PDT group),or the combination of HMME and Z-DEVD-FMK followed by photodynamic therapy (caspase 3 inhibitor group).At 12 hours after the therapy,HSFs were collected and immunofluorescence microscopy was used to observe the fluorescence intensity of caspase 3 after staining with fluorescein isocyanate (FITC) and popodium iodide (PI),flow cytometry was performed to determine the percentage of caspase 3-positive HSFs and apoptosis rate in HSFs after single staining with FITC and PI respectively.Results The fluorescence intensity of caspase 3 was weak in the control group and caspase 3 inhibitor group,but was strong in the HMME-PDT group.An increased percentage of caspase 3-positive HSFs was noted in the HMMEPDT group compared with the control group and caspase 3 inhibitor group(30.86％ ± 1.21％ vs.3.12％ ±0.28％ and 2.46％ ± 0.18％,t =19.92,21.76,both P ＜ 0.05).The apoptosis rate in HSFs was significantly higher in the HMME-PDT group and caspase 3 inhibitor group than in the control group(30.54％ ± 3.78％ and 10.46％ ± 2.15％ vs.2.45％ ± 0.22％,t =35.90,27.97,both P＜ 0.05),and higher in the HMME-PDT group than in the caspase 3 inhibitor group.ConclusionsThe apoptosis in HSFs induced by HMME-PDT is closely related to the activation of caspase 3,while caspase 3 seems to be dispensable for the apoptosis.

Objective To investigate the value of copy number variation analysis based on next-generation sequencing (NGS-CNVA) in the genetic analysis of missed abortion chorionic villi. Methods From August 2012 to May 2014, chorionic villi from 74 cases of missed abortion at 6-13 gestational weeks in Haidian Maternal and Child Health Hospital were collected and analyzed by karyotype analysis and NGS-CNVA. The results of the two methods were compared. Results (1) Karyotype analysis was carried out for the villi from the 74 missed abortion patients. Thirty cases were euploid, 26 cases were aneuploid, while 18 cases had structural abnormalities. The resolution of the karyotyping was 320 bands and the average report time was 22 days. (2) All of the 74 samples obtained NGS-CNVA results and the report time was 7-10 days. (3) The NGS-CNVA results of 56 cases were consistent with karyotype. Among them, 28 cases (28/56, 50%) had no copy number variants (CNV), and 19 cases (19/56, 34%)had CNV between 1 Mb and 10 Mb. 9 cases (9/56,16%) had CNV≥10 Mb found by NGS-CNVA, but not found by karyotyping. (4) According to the results of NGS-CNVA, karyotype were reviewed. The reviewed results found 7 cases with CNV<10 Mb and 3 cases with CNV≥10 Mb in 30 cases which got normal karyotype results at the first analysis. (5) Among the 18 cases of structural abnormalities, 6 cases were Robertsonian translocation. Sequencing technology could confirm the specific area of chromosome deletion/duplication in 8 cases, but could not locate them. Conclusions NGS-CNVA has lower failure rate, higher resolution, lower specimen requirement and shorter report time than karyotype analysis when used for the genetic analysis of missed chorionic villi . NGS-CNVA could be a useful genetic analysis method for the missed abortion villi.

Objective To evaluate the therapeutic effect of transarterial chemoembolization (TACE) combined with CT-guided 125I seed implantation in treating hepatocellular carcinoma (HCC) complicated by portal vein tumor thrombus(PVTT), and to discuss the technical points. Methods A total of 48 HCC patients with PVTT were enrolled in this study. TACE combined with CT-guided 125I seed implantation was carried out in all 48 patients. Based on the sites of PVTT, the lesions were classified into type A (PVTT within main portal vein), type B(PVTT within level-1 portal branch) and type C(PVTT within level-2 or more distal portal branch). According to whether the 125I seeds were directly implanted into the PVTT or not, the patients were divided into direct in-tumor thrombus implantation group (group A) and around tumor thrombus implantation group (group B; the 125I seeds were implanted in the liver parenchyma or in tumor tissue around the tumor thrombus within 1.7 cm region). The tumor thrombus control rate(TTCR), the disease control rate(DCR), the time to progress(TTP) and the overall survival rate of patients(OS) were determined, and the results were compared among different types and groups. Results TACE combined with CT-guided 125I seed implantation was successfully accomplished in all 48 patients. The median OS of type A, B and C was 8, 11.5 and 15 months respectively(P=0.003);the TTCR of type A, B and C was 61.5%, 70.8%and 72.7%respectively(P=0.548); the DCR of type A, B and C was 69.2%, 75%and 81.8% respectively (P=0.483); the median TTP of type A, B and C was 4.5, 8 and 11 months respectively(P=0.030);the median TTP of intra-hepatic tumor of type A, B and C was 5, 9 and 9.5 months respectively(P=0.012). The median OS in group A and group B was 10 and 11.5 months respectively (P=0.239); the TTCR in group A and group B was 69.2% and 68.2%respectively(P=0.591); the DCR of intra-hepatic tumor in group A and group B was 73.1% and 77.3%respectively(P=0.502); the median TTP of tumor thrombus in group A and group B was 7 and 10 months respectively(P=0.276); and the median TTP of intra-hepatic tumor in group A and group B was 8 and 9.5 months respectively(P=0.089). Conclusion For the treatment of hepatocellular carcinoma complicated by portal vein tumor thrombus, TACE combined with CT-guided 125I seed implantation can effectively control the progress of both the tumor thrombus and the intra- hepatic tumor and prolong patient’s survival time. Implantation of 125I seeds into the portal vein tumor thrombus and implantation of 125I seeds into the liver parenchyma around the tumor thrombus have the same therapeutic results. (J Intervent Radiol, 2015, 24:488-493)

Objective To carry out a molecular screening of Chinese common deafness gene mutations in Chinese pregnant women group,so as to expatiate on the content,provide molecular epidemiological data,reduce the birth rate and provide a theoretical basis to the deaf children. Methods The molecular detection was done to the pregnant women underwent normal antenatal care in our hospital,using gene chips to screen the four com?mon deaf genes(GJB2,GJB3,SLC26A4 and mitochondrial 12S rRNA)in China;then,the newborn infants carrying mutations were treated with the hearing screening,using the methods of Otoacoustic Emissions(OAE)and Brainstem Auditory Evoked Potentials(BAEP),and the husbands of mutation carrying pregnant women were adopted molecular testing of the deaf susceptibility genes in order to investigate the correlation of the rate of pregnant women carrying the mutant genes and newborn infants deafness. Results Totally 2 067 cases of pregnant women were accepted to do the molecular screening,there were 110 cases of deafness mutations detected(5.320%),in which GJB2 gene(67 cases),GJB3 gene(6 cases), SLC26A4gene(33 cases),mitochondrial 12SrRNAgene(4 cases)mutation detection rates were 3.240%,0.290%,1.600%and 0.190%,respec?tively;especially:GJB2gene 235 del C,GJB2gene 299 del AT double mutant 1 case;GJB2gene 299 del AT,GJB3gene 538 C>T double mutant 1 case;GJB2 gene 235 del C,SLC26A4 gene IVS7?2 A>G double mutant 1 case. About 108 cases children newborn accepted to do the hearing screening,in which 3 cases had problems with the left ear,3 cases with the right ear,and 4 cases with the double ears. Conclusion The use of ge?netic deafness gene chip to do the molecular diagnostics in pregnant women can be convenient,fast and efficient for prenatal diagnosis of deafness, which provides a theoretical basis and good method for reducing the birth rate of deaf children and should be popularized more widely.

Objective By using primary cultured mouse renal tubular epithelial cells (TECs) to develop an in vitro model of simulated ischemia-reperfusion (IR) injury.Methods The outer medulla of C57BL/6J mouse kidney was flushed and primary cultured after digestion in type Ⅰ collagenase,and then immunocytochemical staining was used to verify TECs.Primary cultured TECs were immersed in mineral oil to simulate the ischemic process,and 60 min later the whole culture medium was added to simulate reperfusion process.The cells were collected and RAN was extracted at indicated time points after medium replacement.The expression of TNF-α,IL-1β and IL-6 was detected by using real-time fluorescence quantitative RT-PCR. The culture supernatants were collected at 24 h after medium replacement for detection of the expression of cytokine protein by using ELISA.Results Primary cultured TECs were identified by cobblestone-shaped morphology and then verified by cytokeratin 18 (CK18) staining.In TECs of IR group after medium replacement the mRNA expression of TNF-α,IL-1β and IL-6 was higher than in control group.The expression of TNF-α after medium replacement was increased to a peak level at 0.5 h,about (24.45 ±6.51) times (P＜0.01 ) higher than the control group,and gradually declined thereafter.The mRNA expression of IL-1β after medium replacement kept an increasing tendency,about ( 15.27 ± 4.29) times (P＜0.05) higher than the control group at 6 h,and that of IL-6 after medium replacement was increased to a peak level at 3 h,about ( 11.19 ±4.55) times (P＜0.01) higher than the control group. In the IR group at 24 h after medium replacement,the protein expression of NF-α,IL-1β and IL-6 in the supernatants was significantly higher than in the control group.Conclusion High purity of primary cultured TECs was achieved from the outer medulla of mouse kidney by separation and digestion.The in vitro model of simulated IR in primary cultured mouse renal TECs was successfully created using paraffin oil.

Objective To observe the phosphorylation of Smad3 in hyperplastic scar fibroblasts (HSFs) induced by hematoporphyrin monomerthyl ether (HMME) followed by photodynamic therapy (PDT).Methods Fibroblasts were isolated from the hypertrophic scar tissues of 10 patients and subjected to culture in vitro.After 3-5 passages,the HSFs were divided into 4 groups:control group receiving no treatment,PDT group pretreated with HMME of 4 μg/ml followed by PDT,HMME group induced by HMME alone,and laser group irradiated with laser alone.Fluorescence microscopy was used to observe the expression of Smad3 after immunofluorescent staining with anti-Smad3 antibody,and Western blot to detect the expression of Smad3 and phosphorylated Smad3 in these HSFs.Paired t test was conducted to compare the difference in Smad3 and phosphorylated Smad3 expression between these groups.Results The total fluorescence intensity of Smad3 was similar between these groups,but the intranuclear fluorescence signal was significantly weaker in the PDT group than in the control group.The level of phosphorylated Smad3 was statistically decreased in the PDT group compared with the control group (0.20 ± 0.02 vs.0.92 ± 0.15,P ＜ 0.05),but no significant difference was observed between the HMME group and laser group (P ＞ 0.05).Conclusion PDT may inhibit the proliferation of HSFs via attenuating the phosphorylation of Smad3.

ObjectiveTo investigate the effect and underling mechanism of water-soluble CO-releasing molecules (CORM-3)on the alleviation of allograft rejectionafter mouse kidney transplantation.Methods A mice kidney transplantation model was established using C.FVB-Tg (Itgax-DTR/GFP)57Lan/J or C57BL/6J (H-2Kb) mice as donors,and Balb/c (H-2Kd) mice as recipients.After donor nephrectomy,kidney was preserved in UW solution which contained CORM-3 or iCORM (inactive CO-releasing molecules) for 24 h in 4℃.Recipient survival after removal of both na? ve kidneys,serum creatinine as well as graft histology was observed.In the C.FVB-Tg(ItgaxDTR/GFP) 57Lan/J donors,rDCs were acquired in vitro and selected by magnetic cell sorting (MACS) after graft nephrectomy.The expression of activation markers,CD80 and CD86,on rDC was assessed by using flow cytometry.ResultsThe graft medium survival time was 40.5 days in the iCORM group and 70 days in the CORM-3 group respectively (P＜0.05).CORM-3 preserved the graft function as shown by significantly lower serum creatinine (P＜0.05; or P＜0.01) and alleviated graft pathology injury.Diffuse infiltration of mononuclear cells in the interstitial tissues,moderate tubulitis and partial glomerular sclerosis were found in the iCORM graft kidney,while the CORM-3 graft kidney displayed almost normal histology.Meanwhile,CORM-3 suppressed the expression of CD80 and CD86 in donor-derived rDC.ConclusionCORM-3 can alleviate allograft rejection,prolong the graft survival,and improve kidney function in mouse kidney transplantation,probably via inhibiting rDC activation.

ObjectiveTo investigate the role of aldehyde dehydrogenase 2 (ALDH2) in the protection against tubular epithelial cells (TEC) ischemia/reperfusion (IR)injury induced by pretreatment with ethanol.Methods Mouse primary cultured TECs were pretreated with 50 mM ethanol 3 h before simulation of in vitro IR.Lactate dehydrogenase (LDH) release was assessed to evaluate the protection of ethanol pretreatment on IR injury.Thereafter,TECs were transfected with a negative control siRNA (NC) or an ALDH2-siRNA. The ALDH2 protein levels and ALDH enzymatic activities were assessed 48 h after transfection.Ethanol pretreatment and in vitro IR were performed on those transfected TECs.LDH release was assessed to evaluate the role of ALDH2 in the ethanol pretreatment-induced protection against IR injury.ResultsEthanol pretreatment significantly reduced the LDH release in TECs upon IR insult.As compared with NC group and INTERFERin group,the ALDH2 protein levels were decreased by 82.1％,ALDH enzymatic activities were decreased hy 67.3％,and the protective effect induced by ethanol pretreatment was almost completely abrogated in ALDH2-siRNA group.ConclusionEthanol pretreatment protects TECs against IR injury through ALDH2 dependent pathways.

A mutant strain RZ13 with high lipase productivity was obtained through treating the Rhizopus sp. RXF12 by UV and microwave,and its activity was 2.62-fold of the original one. The high lipase productivity of the mutant strain could be inherited after repetitious subcultures.The optimal culture conditions of the RZ13 for producing lipase were studied.The lipase with highest activity (67.32U/ml) was obtained on the conditions of 25℃,pH 8.0,5 %(v/v) single spore suspension (1?107spore/ml) and 120 r/min for 84h,and stable under 40℃ and pH 8.5. In addition,the lipase was immobilized by adsorption onto Mg-Al hydrotalcite at 25℃ for 4 h by screening carriers and optimizing the immobilization. The results showed that the optimal reaction temperature and pH were 35~55℃ and 7.5~9.0,respectively,much wider than the free lipase.