OBJECTIVETo study the role of outer membrane protein T (OmpT) in the pathogenesis of uropathogenic Escherichia.coli.

METHODSIn cultured human bladder epithelial cell line 5637, we examined the adhesion ability of wild-type (CFT073), ompT gene knockout (COTD), and revertant (pST) strains of E.coli to the cells and the extracellular matrix (ECM). The expressions of the adhesion gene iha and virulence gene iroN were detected by real-time PCR. Murine models of urinary tract infection with the 3 strains were established to evaluate the bacterial burden of the bladder and kidney tissue and bacterial counts in blood. We also detected the expressions of interleukin-6 (IL-6) and IL-8 in the bladder and kidney tissues of the mice.

RESULTThe COTD strain showed a significantly lower cell adhesion rate than CFT073 strain [(4.62∓0.39)% vs (8.81∓1.13)%, P<0.05] with also a lower ECM-adhesion rate [(4.95∓0.59)% vs (8.85∓0.79)%, P<0.05]. The mRNA expressions of iha and iroN in CFT073 strain were 2.1 and 3.8 times that of COTD strain. In the mouse model, the mean bacterial load of CFT073 strain in the bladder tissue was 6.36∓0.06, significantly greater than that of COTD (6.01∓0.07) and revertant (6.29∓0.06) strains (P<0.05); the bacterial load of CFT073 strain in the kidney tissue was also significantly higher than that of COTD strain (6.25∓0.05 vs 5.87∓0.06, P<0.05). In mice infected with the wild-type, knockout, and revertant strains, the detection rates of IL-6, which were identical to those of IL-8, in the inflammatory bladder and kidney tissues were 60%, 12.5%, and 50%, respectively.

CONCLUSIONSOmpT may regulate the expression of the adhesion gene iha and the transferrin gene iroN to affect the adhesion of uropathogenic E.coli to host cells.

Animals ; Bacterial Adhesion ; Bacterial Load ; Bacterial Outer Membrane Proteins ; metabolism ; Cell Line, Tumor ; Escherichia coli Infections ; pathology ; Escherichia coli Proteins ; metabolism ; Gene Knockout Techniques ; Humans ; Inflammation ; Interleukin-6 ; metabolism ; Interleukin-8 ; metabolism ; Kidney ; microbiology ; Mice ; Peptide Hydrolases ; metabolism ; Receptors, Cell Surface ; metabolism ; Urinary Bladder ; microbiology ; Urinary Tract Infections ; microbiology ; pathology ; Uropathogenic Escherichia coli ; pathogenicity

Objective To evaluate the clinical performance of chemiluminescent immunoassay (CLIA) on anti-nuclear antibody(ANA) specific autoantibodies testing.Methods A multi-center clinical study A total of 811 Sera samples were collected from 6 collaborating hospitals during the period of April to July 2016, and tested with CLIA and line immunoassay (LIA) in parallel for autoantibodies to ribonucleoprotein(RNP), smith antigen(Sm), SSA/Ro60,SSB/La, centromere protein B(CENPB), double-stranded DNA(dsDNA), nucleosome(Nuc), and ribosome P protein(Rib-P).The positive rate,specificity and qualitative coincidence rate for each antibody between CLIA and LIA methods were analyzed.All discrepant samples for systemic lupus erythematosus (SLE) highly specific autoantibodies (including anti-Sm, dsDNA, Nuc and Rib-P) were retested by enzyme linked immunosorbent assay (ELISA) and further analyzed with SLE disease cohort using McNemar test.Results The positive rate and specificity of CLIA and LIA for antibodies to ANA specific antigens were comparable.Excellent qualitative coincidence were found between CLIA and LIA for the detection of anti-RNP, SSA/Ro60, SSB/La and CENPB (Kappa>0.75), while the coincidence rate foranti-Sm, dsDNA, Nuc and Rib-P detection were moderate (0.4

Objective To study the role of outer membrane protein T (OmpT) in the pathogenesis of uropathogenic Escherichia. coli. Methods In cultured human bladder epithelial cell line 5637, we examined the adhesion ability of wild-type (CFT073), ompT gene knockout (COTD), and revertant (pST) strains of E.coli to the cells and the extracellular matrix (ECM). The expressions of the adhesion gene iha and virulence gene iroN were detected by real-time PCR. Murine models of urinary tract infection with the 3 strains were established to evaluate the bacterial burden of the bladder and kidney tissue and bacterial counts in blood. We also detected the expressions of interleukin-6 (IL-6) and IL-8 in the bladder and kidney tissues of the mice. Results The COTD strain showed a significantly lower cell adhesion rate than CFT073 strain [(4.62±0.39)%vs (8.81±1.13)%, P<0.05] with also a lower ECM-adhesion rate [(4.95 ± 0.59)%vs (8.85 ± 0.79)%, P<0.05]. The mRNA expressions of iha and iroN in CFT073 strain were 2.1 and 3.8 times that of COTD strain. In the mouse model, the mean bacterial load of CFT073 strain in the bladder tissue was 6.36±0.06, significantly greater than that of COTD (6.01±0.07) and revertant (6.29±0.06) strains (P<0.05);the bacterial load of CFT073 strain in the kidney tissue was also significantly higher than that of COTD strain (6.25 ± 0.05 vs 5.87 ± 0.06, P<0.05). In mice infected with the wild-type, knockout, and revertant strains, the detection rates of IL-6, which were identical to those of IL-8, in the inflammatory bladder and kidney tissues were 60%, 12.5%, and 50%, respectively. Conclusions OmpT may regulate the expression of the adhesion gene iha and the transferrin gene iroN to affect the adhesion of uropathogenic E.coli to host cells.

Objective To study the role of outer membrane protein T (OmpT) in the pathogenesis of uropathogenic Escherichia. coli. Methods In cultured human bladder epithelial cell line 5637, we examined the adhesion ability of wild-type (CFT073), ompT gene knockout (COTD), and revertant (pST) strains of E.coli to the cells and the extracellular matrix (ECM). The expressions of the adhesion gene iha and virulence gene iroN were detected by real-time PCR. Murine models of urinary tract infection with the 3 strains were established to evaluate the bacterial burden of the bladder and kidney tissue and bacterial counts in blood. We also detected the expressions of interleukin-6 (IL-6) and IL-8 in the bladder and kidney tissues of the mice. Results The COTD strain showed a significantly lower cell adhesion rate than CFT073 strain [(4.62±0.39)%vs (8.81±1.13)%, P<0.05] with also a lower ECM-adhesion rate [(4.95 ± 0.59)%vs (8.85 ± 0.79)%, P<0.05]. The mRNA expressions of iha and iroN in CFT073 strain were 2.1 and 3.8 times that of COTD strain. In the mouse model, the mean bacterial load of CFT073 strain in the bladder tissue was 6.36±0.06, significantly greater than that of COTD (6.01±0.07) and revertant (6.29±0.06) strains (P<0.05);the bacterial load of CFT073 strain in the kidney tissue was also significantly higher than that of COTD strain (6.25 ± 0.05 vs 5.87 ± 0.06, P<0.05). In mice infected with the wild-type, knockout, and revertant strains, the detection rates of IL-6, which were identical to those of IL-8, in the inflammatory bladder and kidney tissues were 60%, 12.5%, and 50%, respectively. Conclusions OmpT may regulate the expression of the adhesion gene iha and the transferrin gene iroN to affect the adhesion of uropathogenic E.coli to host cells.

Objective:To screen the host interaction proteins of the severe fever with thrombocytopenia syndrome virus(SFTSV)nonstructural protein(NSs)by immunoprecipitation combined with mass spectrometry analysis,to discuss the functions,subcellular localization,and biological pathways of these interaction proteins,and to provide the basis for clarifying the replication and pathogenic mechanism of SFTSV.Methods:The eukaryotic expression vectors pSFTSV-NSs-Flag(experimental group)and Flag-CMV-3(negative group)were transfected into the human embryonic kidney 293T cells,and contorl group(no treatment)was set up.The lysates of the cells in various groups were collected,and the expression and localization of SFTSV NSs in the host cells were verified by indirect immunofluorescence and Western blotting methods.The protein lysates were treated with protein A/G and immunoprecipitation was used to enrich host proteins binding to NSs.The captured interaction proteins were initially analyzed by silver staining and Coomassie brilliant blue staining to observe the differential protein bands in various groups;liquid chromatography-tandem mass spectrometry was used to obtain the information of protein sequences;the reliable proteins were retained and searched by UniProt database;Gene Ontology(GO)functional enrichment analysis,IPR,eukaryotic orthologous groups(KOGs)functional annotation,Kyoto Encyclopedia of Genes and Genomes(KEGG)signaling pathway enrichment analysis,subcellular localization,and transcription factor(TF)functional annotation were used to determine the subcellular structure,gene functions,and biological processes of the interaction proteins.Results:The immunofluorescence results showed that the SFTSV NSs expressed a single specific band at relative molecular mass 33 000 and was localized in the cytoplasm in a granular inclusion body-like manner.The silver staining and Coomassie brilliant blue staining results showed there were significant differential protein bands between experimental group and negative group.The mass spectrometry results identified 46 potential interaction proteins.The GO functional enrichment analysis,KOGs functional annotation,and KEGG signaling pathway enrichment analysis results showed that the biological pathways related to viral translation,cellular metabolism,and protein transport were enriched with a considerable number of proteins.Eight annotated proteins had intermediate filament domains.The highest percentage of subcellular localization was cytoplasmic proteins,consistent with the NSs localization site.The TF functional annotation analysis results showed one protein from the NF-Y family.Conclusion:The interaction proteins play roles in assisting the proper protein folding,participating in the cribosome translation,and forming the cytoskeleton,which may be involved in antiviral replication.These proteins can be used as candidate proteins for further study on the replication mechanism of SFTSV.

Objective To explore the role of CD44 in monocyte adhesion to human brain microvascular endothelial cells (HBMECs) and monocyte migration across an in vitro model of blood-brain barrier (BBB) infected by Cryptococcus neoformans (Cn). Methods An in vitro blood-brain barrier model was constructed using a transwell chamber covered with a HBMEC monolayer. The wild-type strain of Cn B4500FO2, TYCC645#32 strain with CPS1 gene deletion and PCIP strain with CPS1 complementation were chosen to infect the monolayer HBMECs. THP-1 cells were added to the upper chamber of transwell, and the relative migration rate was determined by counting the number of the cells entering the lower chambers. The inhibitory effects of anti-CD44 monoclonal antibody and the CD44 inhibitor bikunin were examined on THP-1 binding to and migration across HBMECs. Results Cn infection of the HBMECs caused markedly enhanced THP-1 cell adhesion and migration across the monolyers (P<0.01) dependent on Cn concentration and exposure time. Addition of anti- CD44 monoclonal antibody and bikunin significantly lowered THP-1 adhesion and migration rates in the BBB model with Cn-infected HBMECs (P<0.01) with a dose dependence of the antibody (within 0-1μg) and inhibitor (within 0-20 nmol/L). Both THP-1 adhesion rate and migration rate were lowered in the BBB model infected with CPS1 gene-deleted Cn but increased in the model infected with the complemented strain compared with those in the wild-type strain-infected model. Conclusion In the in vitro BBB model, CD44 expressed on HBMECs may play an essential role in monocyte adhesion to and migration across the BBB. The capsular hyaluronic acid may mediate Cn-induced monocyte adhesion and migration.

Objective To explore the role of CD44 in monocyte adhesion to human brain microvascular endothelial cells (HBMECs) and monocyte migration across an in vitro model of blood-brain barrier (BBB) infected by Cryptococcus neoformans (Cn). Methods An in vitro blood-brain barrier model was constructed using a transwell chamber covered with a HBMEC monolayer. The wild-type strain of Cn B4500FO2, TYCC645#32 strain with CPS1 gene deletion and PCIP strain with CPS1 complementation were chosen to infect the monolayer HBMECs. THP-1 cells were added to the upper chamber of transwell, and the relative migration rate was determined by counting the number of the cells entering the lower chambers. The inhibitory effects of anti-CD44 monoclonal antibody and the CD44 inhibitor bikunin were examined on THP-1 binding to and migration across HBMECs. Results Cn infection of the HBMECs caused markedly enhanced THP-1 cell adhesion and migration across the monolyers (P<0.01) dependent on Cn concentration and exposure time. Addition of anti- CD44 monoclonal antibody and bikunin significantly lowered THP-1 adhesion and migration rates in the BBB model with Cn-infected HBMECs (P<0.01) with a dose dependence of the antibody (within 0-1μg) and inhibitor (within 0-20 nmol/L). Both THP-1 adhesion rate and migration rate were lowered in the BBB model infected with CPS1 gene-deleted Cn but increased in the model infected with the complemented strain compared with those in the wild-type strain-infected model. Conclusion In the in vitro BBB model, CD44 expressed on HBMECs may play an essential role in monocyte adhesion to and migration across the BBB. The capsular hyaluronic acid may mediate Cn-induced monocyte adhesion and migration.

Objective : To screen the RNA binding proteins interacting with NBV nonstructural protein σNS in host cells and to analyze their bioinformatics functions. Methods : In this study , the eukaryotic expression vector pEF⁃HA⁃MB⁃S3 of NBV σ NS was constructed and transfected into HEK293T cells after verification. After RNase A treatment , the obtained protein lysate was enriched by immunoprecipitation to enrich σNS binding proteins , identified and analyzed by LC⁃MS/MS mass spectrometry , and the properties and specific functions of proteins were discovered with the help of related Bioinformatics tools. Results : In this study , 32 candidate RNA binding proteins interacting with NBV σNS proteins were successfully screened , and the results of bioanalysis showed that these proteins were mainly located in cytoplasm and nucleus , and were mainly involved in biological processes such as cell metabolism , biological regulation , virus translation and transcription. Conclusion This study preliminarily analyzes the function of RNA binding proteins interacting with NBV σNS , which lays a foundation for further study on the mechanism of σNS protein in NBV life cycle.

Third space fluid(TSF) is a common complication of advanced malignancies, including malignant pleural effusion, malignant ascites, intracranial effusion, and pelvic effusion, etc. The pharmacokinetics(PK) of anti-tumor drugs in vivo are influenced by various factors, and TSF is one of the potential factors that contributes to PK variations, which may consequently affect the efficacy and safety of anti-tumor drugs. This paper aimed to comprehensively investigate PK studies related to anti-tumor drugs in patients with malignant tumors accompanied by TSF. The paper summarized the PK characteristics of common cytotoxic drugs, small molecule targeted drugs, and monoclonal antibodies in both blood and TSF.