TLR4全长及其截断体重组腺病毒对Rf-6A细胞骨架的影响

为了研究LPS受体TLR4全长及其胞内段缺失的TLR4截断体(ΔTLR4)的绿色荧光蛋白重组腺病毒对内皮细胞系Rf-6A骨架蛋白的影响,采用PCR方法扩增目的基因片段,亚克隆至腺病毒穿梭质粒pAdTrack中,用BJ5183细菌同源重组法将目的基因重组于腺病毒骨架载体,重组腺病毒质粒经Pac Ⅰ酶切线性化后,用脂质体法转染293细胞进行腺病毒的包装扩增,用重组腺病毒感染Rf-6A细胞,采用免疫荧光标记方法观察结果。免疫荧光标记结果表明Ad-ΔTLR4明显抑制了LPS引起的细胞骨架F-actin的解聚与重排,Ad-TLR4则使LPS引起的F-actin应力纤维产生增强。以上结果说明TLR4全长及其截断体的重组腺病毒感染内皮细胞对LPS诱导的细胞骨架变化具有不同的影响,Ad-ΔTLR4对LPS引起的内皮细胞骨架变化具有抑制作用。     

HAX1和EGFP共表达重组腺病毒载体的构建、鉴定

目的构建和鉴定HAX1和EGFP双基因共表达重组腺病毒载体。方法采用DNA重组技术,将目的基因HAX1克隆至含有报告基因EGFP的穿梭质粒pAdTrack—CMV中,并转化于大肠埃希菌DH5a;筛选出重组质粒pAdTrack—CMV—HAX1,并在BJ5183细菌中与pAdEasy-1质粒进行同源重组,产生重组腺病毒载体;用lipofectamine将其转染HEK293细胞,包装携带全长HAX1的重组复制缺陷型腺病毒pad—HAX1-EGFP,酶切和序列测定鉴定;用制备好的Ad—HAX1-EGFP感染HEK293细胞,流式细胞术检测其感染效率,RT—PCR、Western印迹鉴定外源基因HAX1的表达。BrdU检测感染了Ad—HAX1-EGFP的HEK293细胞增殖情况。结果pAdTrack—CMV—HAX1重组质粒构建成功。pAdTrack—CMV—HAX1质粒与pAdEasy-1质粒同源重组后与预期结果相符。构建好的Ad—HAX1-EGFP能有效感染HEK293细胞;外源基因能在239细胞中有效表达。HAX1高表达的HEK293细胞其增殖率得以提高。结论成功构建了表达HAX1和EGFP共表达的重组腺病毒载体,HAX1能够促进结肠癌细胞HEK293细胞的增殖。     

CD/TK单、双自杀基因重组腺病毒的制备及初步应用

为制备表达大肠杆菌胞嘧啶脱氨酶 (cytosinedeaminase ,CD)和单纯疱疹病毒 1 胸苷激酶(herpessimplexvirustype 1thymidinekinase ,TK)双自杀基因的重组腺病毒载体 ,为再狭窄基因治疗的应用奠定基础 ,首先构建了含单、双自杀基因的腺病毒穿梭载体 ,细菌内同源重组法获得重组腺病毒质粒 .脂质体介导下转染 2 93细胞进行包装并大量扩增得到Ad TK、Ad CD、Ad TK CD、Ad LacZ 4种重组腺病毒 .氯化铯 (CsCl)梯度离心法纯化后利用报告基因绿色荧光蛋白 (GFP)测定病毒滴度 ,可达 10 9pfu ml .PCR和Western印迹法对外源基因进行鉴定 ,证明单、双自杀基因均已整合入腺病毒基因组并表达 .重组腺病毒感染血管平滑肌细胞后 ,用MTT法比较了单、双自杀基因的杀伤作用 ,发现在感染复数≤ 2 0时 ,双自杀基因对细胞的抑制作用明显高于单基因 .成功地构建腺病毒双自杀基因共表达载体 ,为进一步的体内外实验奠定了基础 .     

过表达外源性CCN1对人骨肉瘤细胞系143B生长和迁移的影响

采用AdEasy系统构建带有标记基因GFP和FC的重组腺病毒AdCCN1,并感染人骨肉瘤细胞,观察外源性CCN1对肿瘤细胞生长和迁移的影响.PCR扩增FC编码序列标记的人CCN1克隆到pAdTrack-TO4中获得重组穿梭载体pAdTrack-CCN1. PmeⅠ线性化该质粒并电转到有腺病毒骨架质粒的BJ/AdEasy 1菌中,同源重组获得腺病毒质粒pAd-CCN1,PacⅠ线性化并转染293细胞,包装制备AdCCN1.卡那霉素抗性筛选、XbaⅠ与KpnⅠ酶切鉴定,荧光显微镜和Western印迹检测标记基因GFP和FC表达,鉴定获得的复制缺陷型重组腺病毒AdCCN1.AdCCN1与AdGFP分别感染人骨肉瘤细胞143B,通过MTT实验、胶原集落形成实验、划痕愈合和室移动实验,观察CCN1对143B增殖和迁移的影响.酶切鉴定表明,带有FC标记的CCN1被成功克隆到穿梭载体pAdTrack中.卡那霉素抗性筛选并酶切鉴定,获得重组腺病毒质粒pAd-CCN1.Western 印迹和荧光显微镜观察,确定与CCN1共表达的FC和GFP表达.AdCCN1感染骨肉瘤细胞, 与对照比较细胞数量增多,集落形成增加,细胞划痕逐渐愈合,迁移至膜上的细胞数量明显增加.应用AdEasy系统高效快速构建了带有标记GFP和FC的重组腺病毒AdCCN1,为监控腺病毒转基因的效果提供了便捷的工具.AdCCN1感染骨肉瘤细胞后可促进细胞增殖和迁移,提示CCN1在肿瘤发生和转移中可能起到重要作用.     

仙台病毒BB1株6个编码基因的克隆及表达

在仙台病毒BB1株全基因组序列测定的基础上,用反转录和PCR方法获得了核蛋白基因(N),磷蛋白基因(P),神经血凝素基因(HN),基质蛋白基因(M)、融合蛋白基因(F)和聚合酶蛋白基因(L)等6个编码基因全长克隆;测序结果表明,其序列与Genbank中登录的序列(DQ219803)完全一致。为了提供仙台病毒基因组载体拯救和包装所需的反式作用蛋白,将N、P、M、F、HN和L分别克隆到腺病毒穿梭表达载体pDC316上,将它们分别与腺病毒基因组质粒pBHGlox△E1,3Cre共转染HEK293细胞,获得了6种复制缺陷性重组腺病毒Ad5-N、Ad5-P、Ad5-M、Ad5-F、Ad5-HN和Ad5-L。酶切结果表明6种重组腺病毒穿梭质粒构建正确;用PCR方法证明所获得的6种重组腺病毒分别携带了上述6个编码基因;用重组腺病毒感染LLC-MK2细胞后用Western blotting和免疫荧光方法检测到了相应仙台病毒编码基因的表达。本研究为仙台病毒BB1株全长基因组的拼接和病毒载体包装系统组建打下了基础。     

人核糖核酸酶抑制因子基因重组腺病毒载体的构建及鉴定

目的构建含有人核糖核酸酶抑制因子（hRI）基因的重组腺病毒载体。方法以含有全长cDNA的pT7-RI为模板,PCR扩增hRI,经T载体克隆后,酶切亚克隆到穿梭质粒pAdTrack—CMV上,在BJ5183细菌内和pAdEasy-1同源重组。筛选阳性克隆,酶切、PCR及测序鉴定,线性化后脂质体法转染293细胞进行包装、扩增。通过观察绿色荧光蛋白（GFP）的表达及PCR扩增目的基因等方法鉴定重组的腺病毒。结果酶切鉴定及PCR结果证明hRI基因重组腺病毒载体构建成功,病毒滴度为1．5×10^10 pfu/ml。结论应用细菌内同源重组法成功构建了含hRI基因的重组腺病毒载体。     

应用Ad Easy腺病毒载体系统构建人肌浆网钙离子ATP酶2a(SERCA2a)

目的:利用Ad easy腺病毒表达系统构建含人肌浆网钙离子ATP酶2a(SERCA2a)基因重组腺病毒,并在HEK293细胞中扩增制备重组腺病毒.方法:将人SERCA2a基因全长c DNA(3700bp)插入到腺病毒穿梭载体pAdTrack-CMV,成功构建pAd-TrackCMV SERCA2a重组质粒,经Pme I酶切线性化,采用电击法转入到已含Ad easy质粒的电感受态菌BJ5183进行重组.挑选同源重组质粒,Pac I酶切线性化转染HEK293细胞包装成重组腺病毒颗粒,荧光检测有绿色荧光蛋白表达.将重组病毒和SD大鼠心肌细胞共培养,western-blot检测SERCA2a可以在大鼠心肌细胞过表达且影响了胞内SERCA2a的活性.结果:成功包装含人SERCA2a基因的重组腺病毒,并可以有效感染SD大鼠心肌细胞.结论:利用新型腺病毒载体在短时间内成功构建了携带有人SERCA2a基因的腺病毒,为以后进一步研究人SERCA2a基因治疗提供了新途径.     

应用Ad Easy载体系统构建人β2-AR基因重组腺病毒

目的:利用Ad easy腺病毒表达系统构建含人β2-肾上腺素能受体(β2-AR)基因重组腺病毒,并在HEK293细胞中扩增制备重组腺病毒.方法:将β2-AR全长cDNA插入到腺病毒穿梭载体pAdTrack-CMV,构建pAdTrackCMV-β2AR重组质粒,经PmeI酶切线性化后经电击法转入含Ad easy质粒的电感受态菌BJ5183进行重组.挑选同源重组质粒,Pac I酶切线性化转染HEK293细胞包装成重组腺病毒颗粒.将重组病毒和SD大鼠心肌细胞共培养,western-blot检测β2-AR的表达.结果:琼脂糖凝胶电泳显示在1242bp处有特异性条带后被克隆至腺病毒穿梭质粒.重组穿梭载体经Hind Ⅲ和Xba Ⅰ限制性酶切可以得到目的条带并经测序证实.电击法转化BJ5183所得候选重组子经PacⅠ酶切后得到30Kb腺病毒基因组片段和4.5Kb氨苄抗性片段,证实获得同源重组质粒.转染293细胞可以看到绿色荧光蛋白,以MOI100转染SD大鼠心肌细胞发现携带β2-AR的腺病毒可以在心肌细胞中过表达.结论:利用新型腺病毒载体在短时间内成功构建了携带有人β2-AR基因的腺病毒,为进一步研究人β2-AR基因治疗奠定了基础.     

一种高效感染血液细胞的新型靶向性腺病毒载体的构建

人C组5型腺病毒(Ad5)载体能够有效感染上皮来源的细胞,但对造血细胞的感染效率很低,限制了其在造血调控基础研究以及血液病基因治疗中的应用.为了建立高效感染血液细胞的新型靶向性腺病毒载体系统,对5型腺病毒载体的纤维顶球进行了改造,以AdEasy系统为基础,应用递归PCR的方法人工合成人B组11p型腺病毒的部分纤维(fiber)基因,采用一系列分子生物学方法将其替换AdEasy骨架质粒中的人5型腺病毒的fiber基因,得到新的腺病毒骨架质粒命名为pAdEasy-1/F11p,应用带有GFP报告基因的穿梭质粒pShuttle-GFP与AdEasy-1/F11p腺病毒DNA在BJ5183细菌内重组得到重组腺病毒质粒,将其转染293细胞获得重组腺病毒,命名为Ad5F11p-GFP.以Ad5-GFP作对照,同时感染K562、U937等白血病细胞系,流式细胞仪检测GFP的表达.初步检测结果显示在10MOI时,Ad5F11p-GFP能够有效感染K562、U937等白血病细胞系,感染细胞效率＞90%,对照Ad5-GFP感染细胞效率＜30%,这表明改建后的腺病毒AdEasy-1/F11p可以高效介导基因转移到血液细胞,是一种很好的血液细胞靶向性腺病毒载体.     

表达双功能融合蛋白（sCAR-EGF）腺病毒载体的构建及其活性检测

为了提高腺病毒载体用于基因治疗的靶向性,采用PCR和体外连接的方法构建了柯萨奇病毒-腺病毒受体(Coxsackievirus-AdenovirusReceptor)胞外段sCAR和表皮生长因子(Epidermalgrowthfactor)EGF融合基因,然后将此融合基因插入穿梭质粒pDC315。利用Ad-MAX腺病毒系统,将重组质粒pDC315-sCAR-EGF与腺病毒骨架质粒pBHGloxΔE13cre共同转染AD-293细胞,成功包装出一种复制缺陷型腺病毒Ad5-CMV-sCAR-EGF。经PCR鉴定该病毒含有sCAR-EGF融合基因片段,Westernblotting证实该病毒能表达sCAR-EGF融合蛋白。体外试验证实该病毒感染细胞所产生的融合蛋白能够引导携带报告基因的腺病毒Ad5-CMV-luc高水平感染肿瘤细胞,为高水平表达EGFR的肿瘤的靶向性基因治疗提供了新的手段。     

Sialyl residues modulate LPS-mediated signaling through the Toll-like receptor 4 complex

We previously reported that neuraminidase (NA) pretreatment of human PBMCs markedly increased their cytokine response to lipopolysaccharide (LPS). To study the mechanisms by which this occurs, we transfected HEK293T cells with plasmids encoding TLR4, CD14, and MD2 (three components of the LPS receptor complex), as well as a NFκB luciferase reporting system. Both TLR4 and MD2 encoded by the plasmids are α-2,6 sialylated. HEK293T cells transfected with TLR4/MD2/CD14 responded robustly to the addition of LPS; however, omission of the MD2 plasmid abrogated this response. Addition of culture supernatants from MD2 (sMD2)-transfected HEK293T cells, but not recombinant, non-glycosylated MD2 reconstituted this response. NA treatment of sMD2 enhanced the LPS response as did NA treatment of the TLR4/CD14-transfected cell supplemented with untreated sMD2, but optimal LPS-initiated responses were observed with NA-treated TLR4/CD14-transfected cells supplemented with NA-treated sMD2. We hypothesized that removal of negatively charged sialyl residues from glycans on the TLR4 complex would hasten the dimerization of TLR4 monomers required for signaling. Co-transfection of HEK293T cells with separate plasmids encoding either YFP- or FLAG-tagged TLR4, followed by treatment with NA and stimulation with LPS, led to an earlier and more robust time-dependent dimerization of TLR4 monomers on co-immunoprecipitation, compared to untreated cells. These findings were confirmed by fluorescence resonance energy transfer (FRET) analysis. Overexpression of human Neu1 increased LPS-initiated TLR4-mediated NFκB activation and a NA inhibitor suppressed its activation. We conclude that (1) sialyl residues on TLR4 modulate LPS responsiveness, perhaps by facilitating clustering of the homodimers, and that (2) sialic acid, and perhaps other glycosyl species, regulate MD2 activity required for LPS-mediated signaling. We speculate that endogenous sialidase activity mobilized during cell activation may play a role in this regulation.     

Requirement of Rab21 in LPS-induced TLR4 signaling and pro-inflammatory responses in macrophages and monocytes

Lipopolysaccharide (LPS) induces macrophage/monocyte activation and pro-inflammatory cytokines production by activating Toll-like receptor 4 (TLR-4) signaling. Rab GTPase 21 (Rab21) is a member of the Rab GTPase subfamily. In the present study, we show that LPS induced TLR4 and Rab21 association and endosomal translocation in murine bone marrow–derived macrophages (BMDMs) and primary human peripheral blood mononuclear cells (PBMCs). In BMDMs, shRNA-mediated stable knockdown of Rab21 inhibited LPS-induced expression and production of pro-inflammatory cytokines (IL-1β, IL-6 and TNF-α). Conversely, forced overexpression of Rab21 by an adenovirus construct potentiated LPS-induced IL-1β, IL-6 and TNF-α production in BMDMs. Further studies show that LPS-induced TLR4 endosomal traffic and downstream c-Jun and NFκB (nuclear factor-kappa B) activation were significantly inhibited by Rab21 shRNA, but intensified with Rab21 overexpression in BMDMs. Finally, in the primary human PBMCs, siRNA-induced knockdown of Rab21 significantly inhibited LPS-induced IL-1β, IL-6 and TNF-α production. Taken together, we suggest that Rab21 regulates LPS-induced pro-inflammatory responses by promoting TLR4 endosomal traffic and downstream signaling activation.     

Down‐regulation of mitogen‐activated protein kinases and nuclear factor‐κB signaling is involved in rapamycin suppression of TLR2‐induced inflammatory response in monocytic THP‐1 cells

Tripalmitoyl‐S‐glycero‐Cys‐(Lys) 4 (Pam3CSK4) interacted with TLR2 induces inflammatory responses through the mitogen‐activated protein kinases (MAPKs) and nuclear factor‐κB (NF‐κB) signal pathway. Rapamycin can suppress TLR‐induced inflammatory responses; however, the detailed molecular mechanism is not fully understood. Here, the mechanism by which rapamycin suppresses TLR2‐induced inflammatory responses was investigated. It was found that Pam3CSK4‐induced pro‐inflammatory cytokines were significantly down‐regulated at both the mRNA and protein levels in THP‐1 cells pre‐treated with various concentrations of rapamycin. Inhibition of phosphatidylinositol 3‐kinase/protein kinase‐B (PI3K/AKT) signaling did not suppress the expression of pro‐inflammatory cytokines, indicating that the immunosuppression mediated by rapamycin in THP1 cells is independent of the PI3K/AKT pathway. RT‐PCR showed that Erk and NF‐κB signal pathways are related to the production of pro‐inflammatory cytokines. Inhibition of Erk or NF‐κB signaling significantly down‐regulated production of pro‐inflammatory cytokines. Additionally, western blot showed that pre‐treatment of THP‐1 cells with rapamycin down‐regulates MAPKs and NF‐κB signaling induced by Pam3CSK4 stimulation, suggesting that rapamycin suppresses Pam3CSK4‐induced pro‐inflammatory cytokines via inhibition of TLR2 signaling. It was concluded that rapamycin suppresses TLR2‐induced inflammatory responses by down‐regulation of Erk and NF‐κB signaling.     

Activation of Toll‐like receptor 9 inhibits lipopolysaccharide‐induced receptor activator of nuclear factor kappa‐ B ligand expression in rat B lymphocytes

B lymphocytes express multiple TLRs that regulate their cytokine production. We investigated the effect of TLR4 and TLR9 activation on receptor activator of NF‐κB ligand (RANKL) expression by rat spleen B cells. Splenocytes or purified spleen B cells from Rowett rats were cultured with TLR4 ligand Escherichia coli LPS and/or TLR9 ligand CpG‐oligodeoxynucleotide (CpG‐ODN) for 2 days. RANKL mRNA expression and the percentage of RANKL‐positive B cells were increased in rat splenocytes challenged by E. coli LPS alone. The increases were less pronounced when cells were treated with both CpG‐ODN and E. coli LPS. Microarray analysis showed that expressions of multiple cyclin‐dependent kinase (CDK) pathway‐related genes were up‐regulated only in cells treated with both E. coli LPS and CpG‐ODN. This study suggests that CpG‐ODN inhibits LPS‐induced RANKL expression in rat B cells via regulation of the CDK pathway.     

Lipopolysaccharide directly stimulates aldosterone production via toll‐like receptor 2 and toll‐like receptor 4 related PI3K/Akt pathway in rat adrenal zona glomerulosa cells

The level of circulating endotoxin is related to the severity of cardiovascular disease. One of the indexes for the prognosis of cardiovascular disease is the plasma aldosterone level. Recently, the Toll‐like receptors (TLRs), lipopolysaccharide (LPS)‐regulated receptors, were found not only to mediate the inflammatory response but also to be important in the adrenal stress response. Whether LPS via TLRs induced aldosterone production in adrenal zona glomerulosa (ZG) cells was not clear. Our results suggest that LPS‐induced aldosterone secretion in a time‐ and dose‐dependent manner and via TLR2 and TLR4 signaling pathway. Administration of LPS can enhance steroidogenesis enzyme expression such as scavenger receptor‐B1 (SR‐B1), steroidogenic acute regulatory protein (StAR) and P450 side chain cleavage (P450scc) enzyme. LPS‐induced SR‐B1 and StAR protein expression are abolished by TLR2 blocker. Furthermore, we demonstrated that phosphorylation of Akt was elevated by LPS treatment and reduced by TLR2 blockers, TLR4 blockers, and LY294002 (PI₃K inhibitor). Those inhibitors of PI₃K/Akt pathways also abolish LPS‐induced aldosterone secretion and SR‐B1 protein level. In conclusion, LPS‐induced aldosterone production and SR‐B1 proteins expression are through the TLR2 and TLR4 related PI₃K/Akt pathways in adrenal ZG cells. J. Cell. Biochem. 111: 872–880, 2010. © 2010 Wiley‐Liss, Inc.     

PTEN and PI-3 kinase inhibitors control LPS signaling and the lymphoproliferative response in the CD19+ B cell compartment

Pattern recognition receptors (PRRs), e.g. toll receptors (TLRs) that bind ligands within the microbiome have been implicated in the pathogenesis of cancer. LPS is a ligand for two TLR family members, TLR4 and RP105 which mediate LPS signaling in B cell proliferation and migration. Although LPS/TLR/RP105 signaling is well-studied; our understanding of the underlying molecular mechanisms controlling these PRR signaling pathways remains incomplete. Previous studies have demonstrated a role for PTEN/PI-3K signaling in B cell selection and survival, however a role for PTEN/PI-3K in TLR4/RP105/LPS signaling in the B cell compartment has not been reported. Herein, we crossed a CD19cre and PTEN^fl/fl mouse to generate a conditional PTEN knockout mouse in the CD19+ B cell compartment. These mice were further crossed with an IL-14α transgenic mouse to study the combined effect of PTEN deletion, PI-3K inhibition and expression of IL-14α (a cytokine originally identified as a B cell growth factor) in CD19+ B cell lymphoproliferation and response to LPS stimulation. Targeted deletion of PTEN and directed expression of IL-14α in the CD19+ B cell compartment (IL-14+PTEN-/-) lead to marked splenomegaly and altered spleen morphology at baseline due to expansion of marginal zone B cells, a phenotype that was exaggerated by treatment with the B cell mitogen and TLR4/RP105 ligand, LPS. Moreover, LPS stimulation of CD19+ cells isolated from these mice display increased proliferation, augmented AKT and NFκB activation as well as increased expression of c-myc and cyclinD1. Interestingly, treatment of LPS treated IL-14+PTEN-/- mice with a pan PI-3K inhibitor, SF1126, reduced splenomegaly, cell proliferation, c-myc and cyclin D1 expression in the CD19+ B cell compartment and normalized the splenic histopathologic architecture. These findings provide the direct evidence that PTEN and PI-3K inhibitors control TLR4/RP105/LPS signaling in the CD19+ B cell compartment and that pan PI-3 kinase inhibitors reverse the lymphoproliferative phenotype in vivo.     

The Janus face of Bartonella quintana recognition by Toll-like receptors (TLRs): a review

Bartonella quintana (B. quintana) is a facultative, intracellular bacterium, which causes trench fever, chronic bacteraemia and bacillary angiomatosis. Little is known about the recognition of B. quintana by the innate immune system. In this review, we address the impact of Toll-like receptors (TLRs) on the recognition of B. quintana and the activation of the host defense. When experimental models using human mononuclear cells, transfected CHO cells, or TLR2-/- and TLR4-/- mice were used, differential effects of TLR2 and TLR4 have been observed. B. quintana micro-organisms stimulated cytokine production through TLR2-mediated signals, whereas no role for TLR4 in the recognition of this pathogen was observed. When single, water-phenol extraction was performed, B. quintana LPS, stimulated cytokine production in a TLR2-dependent manner. However, when double extraction was performed in order to generate highly purified LPS, B. quintana LPS entirely lost its capacity to stimulate cytokines, demonstrating that non-LPS components of B. quintana are responsible for the recognition through TLR2. Moreover, B. quintana LPS was shown to be a potent antagonist of Toll-like receptor 4 (TLR4). In conclusion, B. quintana is an inducer of cytokines through TLR2-, but not TLR4-, dependent mechanisms. This stimulation is induced by bacterial components other than lipopolysaccharide. B. quintana LPS is a naturally occurring antagonist of Toll-like receptor 4 (TLR4). In view of the role played by TLR4 in inflammation, B. quintana LPS may be useful as an anti-TLR4 agent with therapeutic potential in both infections and autoimmune inflammation.     

Adenovirus type 11 uses CD46 as a cellular receptor

The 51 human adenovirus serotypes are divided into six species (A to F). Many adenoviruses use the coxsackie-adenovirus receptor (CAR) for attachment to host cells in vitro. Species B adenoviruses do not compete with CAR-binding serotypes for binding to host cells, and it has been suggested that species B adenoviruses use a receptor other than CAR. Species B adenoviruses mainly cause disease in the respiratory tract, the eyes, and in the urinary tract. Here we demonstrate that adenovirus type 11 (Ad11; of species B) binds to Chinese hamster ovary (CHO) cells transfected with CD46 (membrane cofactor protein)-cDNA at least 10 times more strongly than to CHO cells transfected with cDNAs encoding CAR or CD55 (decay accelerating factor). Nonpermissive CHO cells were rendered permissive to Ad11 infection upon transfection with CD46-cDNA. Soluble Ad11 fiber knob but not Ad7 or Ad5 knob inhibited binding of Ad11 virions to CD46-transfected cells, and anti-CD46 antibodies inhibited both binding of and infection by Ad11. From these results we conclude that CD46 is a cellular receptor for Ad11.     

登革2型病毒非结构蛋白NS4B及其突变体的真核表达与鉴定

目的：构建登革2型病毒非结构蛋白NS4B及其突变体Δ2K-NS4B基因的真核载体,并观察二者在哺乳动物细胞内的定位情况。方法：从登革2型病毒43株的全长cDNA克隆载体上扩增获得编码NS4B及缺失2K片段的NS4B突变体Δ2K-NS4B的基因;通过基因重组的方法分别将2段基因克隆入真核表达载体pcDNA6/V5-HisA,获得重组真核表达载体pc/D2-NS4B和pc/D2-Δ2K-NS4B;经脂质体法转染BHK-21细胞后,用RT-PCR、间接免疫荧光和Western印迹鉴定表达的蛋白。结果：重组蛋白D2-NS4B和D2-Δ2K-NS4B可在BHK-21细胞中表达,二者均定位于细胞质中,并具有较好的抗原性,能够被抗登革2型病毒NS4B的多克隆抗体特异识别。结论：重组蛋白D2-NS4B和D2-Δ2K-NS4B在哺乳动物细胞胞质中的正确表达,为深入了解NS4B在登革病毒致病过程中的生物学功能奠定了基础。