TAR DNA-Binding Protein 43 is Cleaved by the Protease 3C of Enterovirus A71

Enterovirus A71(EV-A71) is one of the etiological pathogens leading to hand, foot, and mouth disease(HFMD), which can cause severe neurological complications. The neuropathogenesis of EV-A71 infection is not well understood. The mislocalization and aggregation of TAR DNA-binding protein 43(TDP-43) is the pathological hallmark of amyotrophic lateral sclerosis(ALS). However, whether TDP-43 was impacted by EV-A71 infection is unknown. This study demonstrated that TDP-43 was cleaved during EV-A71 infection. The cleavage of TDP-43 requires EV-A71 replication rather than the activated caspases due to viral infection. TDP-43 is cleaved by viral protease 3 C between the residues 331 Q and332 S, while mutated TDP-43(Q331 A) was not cleaved. In addition, mutated 3 C which lacks the protease activity failed to induce TDP-43 cleavage. We also found that TDP-43 was translocated from the nucleus to the cytoplasm, and the mislocalization of TDP-43 was induced by viral protease 2 A rather than 3 C. Taken together, we demonstrated that TDP-43 was cleaved by viral protease and translocated to the cytoplasm during EV-A71 infection, implicating the possible involvement of TDP-43 in the pathogenesis of EV-A71 infection.     

ANXA2 Facilitates Enterovirus 71 Infection by Interacting with 3D Polymerase and PI4KB to Assist the Assembly of Replication Organelles

Virologica Sinica - Similar to that of other enteroviruses, the replication of enterovirus 71 (EV71) occurs on rearranged membranous structures called replication organelles (ROs)....     

Cellular Caspase-3 Contributes to EV-A71 2Apro-Mediated Down-Regulation of IFNAR1 at the Translation Level

Enterovirus A71(EV-A71) is the major pathogen responsible for the severe hand, foot and mouth disease worldwide, for which few effective antiviral drugs are presently available. Interferon-a(IFN-a) has been used in antiviral therapy for decades; it has been reported that EV-A71 antagonizes the antiviral activity of IFN-a based on viral 2 Apro-mediated reduction of the interferon-alpha receptor 1(IFNAR1); however, the mechanism remains unknown. Here, we showed a significant increase in IFNAR1 protein induced by IFN-a in RD cells, whereas EV-A71 infection caused obvious downregulation of the IFNAR1 protein and blockage of IFN-a signaling. Subsequently, we observed that EV-A71 2 Apro inhibited IFNAR1 translation by cleavage of the eukaryotic initiation factor 4 GI(eIF4GI), without affecting IFNAR1 m RNA levels induced by IFN-a. The inhibition of IFNAR1 translation also occurred in puromycin-induced apoptotic cells when caspase-3 cleaved e IF4 GI. Importantly, we verified that 2 Aprocould activate cellular caspase-3, which was subsequently involved in e IF4 GI cleavage mediated by 2 Apro. Furthermore, inhibition of caspase-3 activation resulted in the partial restoration of IFNAR1 in cells transfected with 2 A or infected with EV-A71, suggesting the pivotal role of both viral 2 Aproand caspase-3 activation in the disturbance of IFN-a signaling. Collectively, we elucidate a novel mechanism by which cellular caspase-3 contributes to viral 2 Apro-mediated down-regulation of IFNAR1 at the translation level during EV-A71 infection, indicating that caspase-3 inhibition could be a potential complementary strategy to improve clinical anti-EV-A71 therapy with IFN-a.     

ICAM-1K469E 位点A 等位基因可降低EV71 手足口病发生率

目的:研究ICAM-1基因K469E位点、MCP-1A2518G位点基因多态性及sICAM-1、MCP-1在血清中表达水平与EV71手足口病的关系,探讨EV71型手足口病的遗传易感因素。方法:运用限制性片段长度多态性-聚合酶链反应(PCR-RFLP)检测急性期EV71感染阳性的手足口病患儿和正常儿童中ICAM-1K469E位点及MCP-1A2518G位点碱基变异情况,同时采用双夹心抗体法(ELISA)检测血清sICAM-l和MCP-1水平。结果:EV71手足口病组患儿血清中sICAM-l和MCP-1水平均显著高于正常对照组(P均<0.01)。EV71手足口病组ICAM-1K469E位点中,A等位基因的频率显著低于对照组(x2=6.897,P<0.01)。EV71手足口病组患儿MCP-1基因型分布、等位基因频率与对照组比较均无统计学意义(P>0.05)。结论:sICAM-1表达水平和其基因K469E位点多态性与EV71手足口病有关,A等位基因可降低EV71手足口病发生率。MCP-1表达水平与EV71手足口病感染有关,但MCP-1A-2518G位点基因多态性与EV71手足口病感染无关。     

兔出血症病毒复制子的构建及其在RK-13细胞中的复制

为研究兔出血症病毒(RHDV)的复制机制、病毒与宿主之间的相互作用以及致病机制等,创建一个安全、有效的技术平台,在前期构建的RHDV侵染性克隆基础上,将病毒的衣壳蛋白编码区删除,保留了RHDV复制必需的所有蛋白酶基因和两端的非编码区,构建了RHDV复制子。试验结果证明,将该复制子RNA导入RK13细胞中后,能够进行高水平的复制和表达。     

细胞膜转运分子ABCC3和SLC7A7在肠道病毒A71型感染中作用的初步研究

肠道病毒A71型(enterovirus A71,EV-A71)是导致手足口病(hand-foot-mouth disease,HFMD)的主要病原体之一,目前对其治疗尚无特异高效的抗病毒药物.研究表明,细胞膜转运相关分子参与病毒的入侵、复制以及感染性子代病毒颗粒的释放.为寻找宿主中可有效抑制EV-A71感染的细胞膜转...     

Plasma Membrane Ca2+-ATPase Overexpression Depletes Both Mitochondrial and Endoplasmic Reticulum Ca2+ Stores and Triggers Apoptosis in Insulin-secreting BRIN-BD11 Cells

Ca²⁺ may trigger apoptosis in β-cells. Hence, the control of intracellular Ca²⁺ may represent a potential approach to prevent β-cell apoptosis in diabetes. Our objective was to investigate the effect and mechanism of action of plasma membrane Ca²⁺-ATPase (PMCA) overexpression on Ca²⁺-regulated apoptosis in clonal β-cells. Clonal β-cells (BRIN-BD11) were examined for the effect of PMCA overexpression on cytosolic and mitochondrial [Ca²⁺] using a combination of aequorins with different Ca²⁺ affinities and on the ER and mitochondrial pathways of apoptosis. β-cell stimulation generated microdomains of high [Ca²⁺] in the cytosol and subcellular heterogeneities in [Ca²⁺] among mitochondria. Overexpression of PMCA decreased [Ca²⁺] in the cytosol, the ER, and the mitochondria and activated the IRE1α-XBP1s but inhibited the PRKR-like ER kinase-eIF2α and the ATF6-BiP pathways of the ER-unfolded protein response. Increased Bax/Bcl-2 expression ratio was observed in PMCA overexpressing β-cells. This was followed by Bax translocation to the mitochondria with subsequent cytochrome c release, opening of the permeability transition pore, and apoptosis. In conclusion, clonal β-cell stimulation generates microdomains of high [Ca²⁺] in the cytosol and subcellular heterogeneities in [Ca²⁺] among mitochondria. PMCA overexpression depletes intracellular [Ca²⁺] stores and, despite a decrease in mitochondrial [Ca²⁺], induces apoptosis through the mitochondrial pathway. These data open the way to new strategies to control cellular Ca²⁺ homeostasis that could decrease β-cell apoptosis in diabetes.     

Channel Formation by Yeast F-ATP Synthase and the Role of Dimerization in the Mitochondrial Permeability Transition

Purified F-ATP synthase dimers of yeast mitochondria display Ca²⁺-dependent channel activity with properties resembling those of the permeability transition pore (PTP) of mammals. After treatment with the Ca²⁺ ionophore ETH129, which allows electrophoretic Ca²⁺ uptake, isolated yeast mitochondria undergo inner membrane permeabilization due to PTP opening. Yeast mutant strains ΔTIM11 and ΔATP20 (lacking the e and g F-ATP synthase subunits, respectively, which are necessary for dimer formation) display a striking resistance to PTP opening. These results show that the yeast PTP originates from F-ATP synthase and indicate that dimerization is required for pore formation in situ.     

剪接因子异质核糖核蛋白A2B1在癌细胞和衰老细胞中的相反表达趋势及其对癌细胞衰老的调控

剪接因子异质核糖核蛋白A2/B1(HNRNPA2B1)与人类及小鼠的寿命相关,并在多个癌症的病程进展中发挥重要的作用.然而,HNRNPA2B1能否在细胞衰老这一与个体衰老和抑制癌症密切相关的生物学过程中发挥作用尚不清楚.本研究发现,HNRNPA2B1在多个癌症体系中呈显著上调表达趋势,而在多个细胞衰老体系中则呈显著下调...     

A Reciprocal Shift in Transient Receptor Potential Channel 1 (TRPC1) and Stromal Interaction Molecule 2 (STIM2) Contributes to Ca2+ Remodeling and Cancer Hallmarks in Colorectal Carcinoma Cells

We have investigated the molecular basis of intracellular Ca²⁺ handling in human colon carcinoma cells (HT29) versus normal human mucosa cells (NCM460) and its contribution to cancer features. We found that Ca²⁺ stores in colon carcinoma cells are partially depleted relative to normal cells. However, resting Ca²⁺ levels, agonist-induced Ca²⁺ increases, store-operated Ca²⁺ entry (SOCE), and store-operated currents (I_SOC) are largely enhanced in tumor cells. Enhanced SOCE and depleted Ca²⁺ stores correlate with increased cell proliferation, invasion, and survival characteristic of tumor cells. Normal mucosa cells displayed small, inward Ca²⁺ release-activated Ca²⁺ currents (I_CRAC) mediated by ORAI1. In contrast, colon carcinoma cells showed mixed currents composed of enhanced I_CRAC plus a nonselective I_SOC mediated by TRPC1. Tumor cells display increased expression of TRPC1, ORAI1, ORAI2, ORAI3, and STIM1. In contrast, STIM2 protein was nearly depleted in tumor cells. Silencing data suggest that enhanced ORAI1 and TRPC1 contribute to enhanced SOCE and differential store-operated currents in tumor cells, whereas ORAI2 and -3 are seemingly less important. In addition, STIM2 knockdown decreases SOCE and Ca²⁺ store content in normal cells while promoting apoptosis resistance. These data suggest that loss of STIM2 may underlie Ca²⁺ store depletion and apoptosis resistance in tumor cells. We conclude that a reciprocal shift in TRPC1 and STIM2 contributes to Ca²⁺ remodeling and tumor features in colon cancer.     

Capsaicinol: Synthesis by Allylic Oxidation and Its Effect on TRPV1-Expressing Cells and Adrenaline Secretion in Rats

Capsaicinol is an ingredient of hot red pepper. In this study, we developed a novel method for capsaicinol synthesis and examined capsaicinol’s physiological effects on capsaicin receptor (TRPV1)-related actions. Allylic oxidation of capsaicin by palladium acetate (Pd(OAc)₂) resulted in the formation of (±)-capsaicinol acetate at a 7.2% yield in a single step. The effectiveness of (±)-capsaicinol in TRPV1 activation (EC₅₀=1.1 μM) was found to be weaker than that of capsaicin (EC₅₀=0.017 μM), whereas the efficacy of (±)-capsaicinol reached 75% of that of capsaicin. Intravenous administration of (±)-capsaicinol in anesthetized rats dose-dependently enhanced adrenaline secretion from the adrenal gland. The response to a 5 mg/kg-dose of (±)-capsaicinol was comparable to that of a 0.05 mg/kg-dose of capsaicin. The relative pungency of capsaicinol to capsaicin was coincident with the relative effectiveness in inducing these TRPV1-related actions.     

黄芩苷干预甲型H1N1流感病毒感染诱导的A549细胞周期分布及凋亡

以甲型H1N1流感病毒作为刺激因素,在人肺腺癌A549细胞培养内采用MTT比色法和细胞病变(CPE)法观察黄芩苷不同作用时间的抗病毒效率;以碘化丙啶(Propidium iodide,PI)单染流式细胞仪分析细胞周期中各时期的细胞百分数和对细胞增殖的影响,以Hoechst33258染色荧光显微镜观察细胞凋亡的形态学变化,并采用免疫荧光实验测定膜受体通路Caspase 8和线粒体通路Caspase 9及作为细胞凋亡标志的Caspase 3的活性。结果显示:流感病毒感染36h后宿主细胞周期阻滞于S期(P<0.05),并在G0期细胞峰前出现一个亚二倍体细胞峰(凋亡细胞峰)。A549细胞中Caspase 8/3活性明显升高,但标记Caspase 9活性的荧光亮度增强不明显。黄芩苷对甲型流感病毒感染诱导的细胞损伤有较好的保护作用,最大剂量的黄芩苷100μg/mL无毒,可抑制病毒细胞病变的产生,50~100μg/mL治疗组可明显调节流感病毒感染诱导的细胞周期分布(P<0.05),细胞凋亡现象明显减少,100μg/mL黄芩苷治疗组Caspase 8/3活性显著降低,接近正常对照组细胞水平,有剂量依赖性。实验说明:黄芩苷可拮抗甲型流感病毒H1N1细胞病变,调控细胞周期分布,并通过抑制Caspase 8的激活,进一步抑制Caspase 3活性,从而发挥抗病毒作用。     

Effect of aberrant promoter methylation of FHIT and RASSF1A genes on susceptibility to cervical cancer in a North Indian population

As current evidence suggests the involvement of epigenetic modification of tumour suppressor genes in human cancer, we investigated the aberrant promoter methylation of FHIT and RASSF1A genes in human papillomavirus (HPV)-mediated cervical cancer in Indian women. We analysed 60 cervical cancer tissue biopsies of different clinical stage and histological grading and 23 healthy control samples with normal cervical cytology. Methylation-specific polymerase chain reaction (MSP) was performed to analyse the methylation status of FHIT and RASSF1A genes and confirmed by sequencing. Both patients and controls were screened for HPV infection and 98% of the HPV-infected cases showed positivity for HPV type 16. Aberrant promoter methylation of the FHIT gene was found in 28.3% (17/60) of cases and of the RASSF1A gene in 35.0% (21/60) of cases; promoter methylation of both the genes was found in 13.3% (8/60) of cervical cancer cases. Methylation was significantly (p<0.01) associated with the cervical cancer cases compared with controls. None of the 23 controls was found to be methylated in either of these genes. This is the first study indicating a correlation between the promoter methylation of FHIT and RASSF1A genes and the clinical stage and histological grading of cervical carcinoma in Indian women. Future studies are underway to examine the practical implications of these findings for use as a biomarker.     

小鼠 CYP2R1的异源表达及其对癌细胞增殖的差异作用

细胞色素P450 (cytochrome P450, CYP450)是一类血红素氧化酶。细胞色素P450家族2亚家族R成员1（cytochrome P450 family 2 subfamily R member 1, CYP2R1）是一种主要在肝组织中表达的维生素D羟化酶。目前,对于小鼠CYP2R1蛋白质的结构、物化特性和病理机制的理了解仍十分有限。本研究结合基因克隆和生物信息学分析,获得小鼠CYP2R1基因CDS序列及其生物学特征。随后,利用pcDNA3.1-CYP2R1真核表达载体,通过细胞划痕、MTT分析、real-time qPCR方法检测异源表达CYP2R1对肺癌细胞A549、胃癌细胞7901、肝癌细胞HepG2以及正常细胞HEK293T细胞的迁移、增殖和细胞周期基因表达的影响,探明其对癌细胞增殖的作用。结果显示,由C57BL/6小鼠肝组织的CYP2R1基因,序列长度1 506 bp,其中,CD_S 468 bp。其编码的155个氨基酸,与其他11个物种间的同源性均较高,其三级结构与人CYP2R1略有不同。构建的pcDNA3.1-CYP2R1真核表达载体,可在体外培养细胞中提高CYP2R1基因mRNA表达105倍以上,蛋白质水平提高约30倍。值得注意的是,异源表达CYP2R1在癌细胞增殖中的作用具有差异性,其中,CYP2R1通过显著降低细胞周期蛋白基因CyclinD1(P<0.05)和Caspase3(P<0.01),而抑制7901细胞的增殖。该研究结果为进一步探索CYP2R1的生物学作用,特别是在分析其对癌细胞增殖方面提供了基础研究数据,并为进一步明确CYP2R1在癌症相关治疗中的重要意义奠定了理论基础。     

AFAP1在博来霉素诱导的A549细胞衰老中的作用机制研究

目的:研究AFAP1在博来霉素诱导的A549细胞衰老模型中的作用及分子机制。方法:用50μg/m L的博来霉素处理A549细胞5天建立细胞衰老模型。用相同浓度的博来霉素处理细胞1-5天观察细胞从周期阻滞到衰老的过程,SA-β-Gal染色检测衰老细胞数目,用Western blot方法检测AFAP1、p21、c-Src等蛋白表达。过表达AFAP1后,观察细胞衰老状态及各蛋白表达水平变化。结果:50μg/m L的博来霉素处理A549细胞5天后可以建立细胞衰老模型,表现为BLM组SA-β-Gal阳性细胞数升高(P0.01)且细胞体积显著增大(P0.01),p21表达水平升高。在衰老的A549细胞中,AFAP1和激活型(Src p Y416)表达水平变化一致,从BLM处理后出现升高第4天开始明显下降在第5天最低,c-Src和Src p Y527表达水平不变。过表达AFAP1后再用博来霉素诱导,SA-β-Gal阳性细胞数及细胞体积、Src p Y416和p21表达与空载对照比较未发现有明显差异(P0.05)。结论:衰老的A549细胞中AFAP1表达下调,c-Src活性降低;过表达AFAP1不能减轻博来霉素诱导的A549细胞衰老,也不能抑制衰老细胞中的c-Src的活性下降。