MicroRNA-324-3p Plays A Protective Role Against Coxsackievirus B3-Induced Viral Myocarditis

Virologica Sinica - Viral myocarditis (VM) is an inflammatory disease of the myocardium associated with heart failure, which is caused by common viral infections. A majority of the infections are...     

受体相互作用蛋白质激酶3通过上调整合素β3促进骨关节炎相关病变

骨关节炎（osteoarthritis,OA）是最常见的慢性致残性关节疾患,目前尚无针对病因的有效治疗手段。程序性坏死在多种疾病中扮演关键角色,受体相互作用蛋白质激酶3（receptor-interacting protein kinase 3, RIP3）是程序性坏死进程的关键调控因子。有研究显示,RIP3在人与鼠骨关节炎退变软骨组织中表达水平显著上调,提示程序性坏死的发生,但RIP3在软骨中的具体病生理角色仍不明确。本研究拟对过表达RIP3前后的软骨细胞转录物组进行测序分析,探索RIP3在骨关节炎进程中发挥作用的具体机制。RNA测序结果显示,RIP3的过表达诱发软骨细胞中244个基因表达上调,277个表达下调。通过进一步构建基因间共表达作用网络,筛选出16个候选靶基因在mRNA水平进行验证,证实RIP3对磷脂酰肌醇3激酶调节亚单位5（phosphoinositide-3-kinase, regulatory subunit 5,Pik3r5）、整合素β3（integrin subunit beta 3,Itgb3）及成髓细胞瘤转录因子第2亚型（MYB proto-oncogene like 2,Mybl2）的表达上调作用最为显著。CCK-8以及乳酸脱氢酶活性检测结果表明,利用siRNA沉默Itgb3的表达可显著抑制RIP3诱发的软骨细胞活力下降及程序性坏死,同时也抑制了RIP3对软骨细胞中分解代谢相关基因Mmp1、Mmp13与Il6的表达上调作用,以及其对合成代谢相关基因Acan、Col2a1与Sox9的下调作用。本研究证实,RIP3通过上调软骨细胞中Itgb3的表达诱发软骨细胞坏死与软骨基质代谢紊乱,并最终导致软骨退变,为骨关节炎的临床治疗提供了新靶点,同时进一步明确了程序性坏死的病理生理学意义。     

Omega-3 fatty acids and dementia

More than a dozen epidemiological studies have reported that reduced levels or intake of omega-3 fatty acids or fish consumption is associated with increased risk for age-related cognitive decline or dementia such as Alzheimer's disease (AD). Increased dietary consumption or blood levels of docosahexaenoic acid (DHA) appear protective for AD and other dementia in multiple epidemiological studies; however, three studies suggest that the ApoE4 genotype limits protection. DHA is broadly neuroprotective via multiple mechanisms that include neuroprotective DHA metabolites, reduced arachidonic acid metabolites, and increased trophic factors or downstream trophic signal transduction. DHA is also protective against several risk factors for dementia including head trauma, diabetes, and cardiovascular disease. DHA is specifically protective against AD via additional mechanisms: It limits the production and accumulation of the amyloid β peptide toxin that is widely believed to drive the disease; and it also suppresses several signal transduction pathways induced by Aβ, including two major kinases that phosphorylate the microtubule-associated protein tau and promote neurofibrillary tangle pathology. Based on the epidemiological and basic research data, expert panels have recommended the need for clinical trials with omega-3 fatty acids, notably DHA, for the prevention or treatment of age-related cognitive decline—with a focus on the most prevalent cause, AD. Clinical trials are underway to prevent and treat AD. Results to-date suggest that DHA may be more effective if it is begun early or used in conjunction with antioxidants.     

脂酰辅酶A长链合成酶3及其相关疾病

脂滴(lipid droplets)是细胞内脂质贮存和调节细胞脂质稳态的重要细胞器,其表面具有多种脂滴相关蛋白质。长链酰基辅酶A合成酶家族的成员脂酰辅酶A长链合成酶3(acyl CoA long chain synthetase 3,ACSL3)即脂滴相关蛋白质的一种,也是生物合成过程中必需的酶之一。ACSL3广泛分布于大多数细胞中的脂滴表面,其在脂滴的合成、自噬的调节和细胞铁死亡等多种病理生理过程中发挥着不同的作用。此外,多项研究表明,ACSL3还广泛参与到多种疾病的发生发展,包括动脉粥样硬化、非酒精性脂肪肝病、糖尿病和肿瘤等。当前,国内对ACSL3的研究相对集中于ACSL3与动物育种和生长的关系,而对ACSL3在脂质代谢中的作用机制及其与疾病的关系鲜有报道。本文基于国内外对ACSL3的研究,对该基因的结构、在细胞脂代谢中的作用机制及其相关疾病进行归纳,进一步探究ACSL3在脂滴的合成、自噬、铁死亡过程中的作用,为防治动脉粥样硬化、非酒精性脂肪肝病、糖尿病(glucose)等多种ACSL3相关疾病提供新的理论依据。     

Megalin/Cubulin-Lysosome-mediated Albumin Reabsorption Is Involved in the Tubular Cell Activation of NLRP3 Inflammasome and Tubulointerstitial Inflammation

Albuminuria contributes to the development and progression of chronic kidney disease by inducing tubulointerstitial inflammation (TI) and fibrosis. However, the exact mechanisms of TI in response to albuminuria are unresolved. We previously demonstrated that NLRP3 and inflammasomes mediate albumin-induced lesions in tubular cells. Here, we further investigated the role of endocytic receptors and lysosome rupture in NLRP3 inflammasome activation. A murine proteinuric nephropathy model was induced by albumin overload as described previously. The priming and activation signals for inflammasome complex formation were evoked simultaneously by albumin excess in tubular epithelial cells. The former signal was dependent on a albumin-triggered NF-κB pathway activation. This process is mediated by the endocytic receptor, megalin and cubilin. However, the silencing of megalin or cubilin inhibited the albumin-induced NLRP3 signal. Notably, subsequent lysosome rupture and the corresponding release of lysosomal hydrolases, especially cathepsin B, were observed in tubular epithelial cells exposed to albumin. Cathepsin B release and distribution are essential for NLRP3 signal activation, and inhibitors of cathepsin B suppressed the NLRP3 signal in tubular epithelial cells. Taken together, our findings suggest that megalin/cubilin and lysosome rupture are involved in albumin-triggered tubular injury and TI. This study provides novel insights into albuminuria-induced TI and implicates the active control of albuminuria as a critical strategy to halt the progression of chronic kidney disease.     

GSK3β Overexpression in Dentate Gyrus Neural Precursor Cells Expands the Progenitor Pool and Enhances Memory Skills

In restricted areas of the adult brain, like the subgranular zone of the dentate gyrus (DG), there is continuous production of new neurons. This process, named adult neurogenesis, is involved in important cognitive functions such as memory and learning. It requires the presence of newborn neurons that arise from neuronal stem cells, which divide and differentiate through successive stages in adulthood. In this work, we demonstrate that overexpression of glycogen synthase kinase (GSK) 3β in neural precursor cells (NPCs) using the glial fibrillary acidic protein promoter during DG development produces an increase in the neurogenic process, increasing NPCs numbers. Moreover, the transgenic mice show higher DG volume and increased number of mature granule neurons. In an attempt to compensate for these alterations, glial fibrillary acidic protein/GSK3β-overexpressing mice show increased levels of Dkk1 and sFRP3, two inhibitors of the Wnt-frizzled complex. We have also found behavioral differences between wild type and transgenic mice, indicating a higher rating in memory tasks for GSK3β-overexpressing mice compared with wild type mice. These data indicate that GSK3β is a crucial kinase in NPC physiology and suggest that this molecule plays a key role in the correct development of DG and adult neurogenesis in this region.     

Comprehensive structure-activity-relationship of azaindoles as highly potent FLT3 inhibitors

Acute myeloid leukemia (AML) is characterized by fast progression and low survival rates, in which Fms-like tyrosine kinase 3 (FLT3) receptor mutations have been identified as a driver mutation in cancer progression in a subgroup of AML patients. Clinical trials have shown emergence of drug resistant mutants, emphasizing the ongoing need for new chemical matter to enable the treatment of this disease. Here, we present the discovery and topological structure-activity relationship (SAR) study of analogs of isoquinolinesulfonamide H-89, a well-known PKA inhibitor, as FLT3 inhibitors. Surprisingly, we found that the SAR was not consistent with the observed binding mode of H-89 in PKA. Matched molecular pair analysis resulted in the identification of highly active sub-nanomolar azaindoles as novel FLT3-inhibitors. Structure based modelling using the FLT3 crystal structure suggested an alternative, flipped binding orientation of the new inhibitors.     

Generation of monoclonal antibodies against non-structural protein 3AB of foot-and-mouth disease virus

To identify linear epitopes on the non-structural protein 3AB of foot-and-mouth disease virus (FMDV), BABL/c mice were immunized with the 3AB protein and splenocytes of BALB/c mice were fused with myeloma Sp2/0 cells. Two hybridoma monoclonal antibodies (mAbs) cell lines against the 3AB protein of foot-and-mouth disease virus (FMDV) were obtained, named C6 and E7 respectively. The microneutralization titer was 1:1024 for mAb C6, and 1:512 for E7. Both mAbs contain kappa light chains, and were of subclass IgG2b. In order to define the mAbs binding epitopes, the reactivity of these mAbs against FMDV were examined by indirect ELISA. The results showed that both mAbs can react with FMDV, but had no cross-reactivity with Swine Vesicular Disease (SVD) antigens. The titers in abdomen liquor were 1:5×10⁶ for C6 and 1:2×10⁶ for E7. In conclusion, the mAbs obtained from this study are specific for the detection of FMDV, can be used for etiological and immunological researches on FMDV, and have potential use in diagnosis and future vaccine designs.     

丙型肝炎病毒NS3蛋白的原核表达及多克隆抗体制备

提高对丙型肝炎患者实验室检测的灵敏度和特异性,对相关人群进行筛查和早期诊断,是控制丙型肝炎病毒(HCV)流行与传播的有效措施。为了建立更为可靠的HCV诊断方法,通过采用PCR方法从J6/JFH12a型病毒中克隆出HCV ns3基因片段,将其连接到p ET-28a载体上,重组载体p ET-28a-ns3转化大肠杆菌BL21(DE3)后诱导表达,以10%SDS-PAGE进行鉴定,获得表达的NS3重组蛋白分子量为72 k Da。将纯化的NS3蛋白免疫BALB/c小鼠,第4次免疫后采集血液并分离血清进行抗体活性鉴定,小鼠抗体效价为1∶256 000。进一步的Western blotting和间接免疫荧光结果显示,以重组NS3蛋白免疫小鼠制备的多克隆抗体可以很好地识别HCV感染Huh7.5.1细胞中的NS3蛋白,为下一步开展单克隆抗体制备和检测试剂盒研制工作奠定了基础。     

受体相互作用蛋白3（RIP3）调控细胞自噬的研究进展

受体相互作用蛋白3(receptor-interacting protein 3,RIP3)是一种丝氨酸-苏氨酸蛋白激酶，因其参与细胞自噬的调控而受到广泛关注。本文就RIP3在细胞自噬的发展和调控机制中的作用进行了总结。RIP3可参与mTOR信号通路的调节，同时与多种自噬所必须的蛋白发生相互作用，包括GNAI3/RGSI9、P62和TFEB等，从而其在自噬启动、自噬体形成和自噬溶酶体成熟等多个阶段发挥正向或负向调控作用，为进一步探究RIP3对细胞程序性死亡的调控机制及相关疾病治疗的潜在分子靶标筛选提供参考。     

内质网膜复合亚基3调控内质网应激影响人畸胎瘤细胞的存活

内质网膜蛋白复合物(endoplasmic reticulum membrane complex,EMC)在跨膜蛋白质的生物发生和膜整合中发挥重要作用.内质网膜复合亚基3 (endoplasmic reticulum membrane complex 3,EMC3)是EMC的重要组成部分,但其在生殖细胞中发挥的作用未见...     

NMR studies reveal a novel mode for hFADD to bind with the unstructured hRTN3 which initiates the ER-stress activated apoptosis

RTN3 can recruit Fas-associated death domain (FADD), thus initiating the ER-stress activated apoptosis. It also interacts with the β-secretase and its aggregation is critically associated with Alzheimer’s disease. Here, we first investigated the solution conformation of hRTN3, subsequently characterized its binding with hFADD. The results reveal: (1) both hRTN3 N- and C-termini are intrinsically unstructured. Nevertheless, the C-terminus contains two short helix-populated regions. (2) The unstructured hRTN3 C-terminus can bind to hFADD as shown by ITC. Further NMR investigation successfully identified the binding involved hRTN3 residues. (3) Although upon hRTN3-binding, the perturbed hFADD residues were distributed over the whole sequence, the majority of the significantly perturbed are over its death effector domain, very different from the previously observed binding mode for FADD. This study also implies a possible linkage between Alzheimer’s disease and ER-stress activated apoptosis.     

罗米地辛与阿糖胞苷联合用药在肺腺癌细胞中介导组蛋白H3K14乙酰化提高CASP3转录活性

肺癌发病率和病死率均居全球恶性肿瘤首位,有效的药物是治疗肺癌的关键。罗米地辛和阿糖胞苷是已经批准上市并应用于临床治疗的癌症化疗药物。这两种药物的联合用药是否在肺腺癌的治疗中发挥作用及其相关分子机制尚不明确。本研究通过MTT和克隆形成实验证实,罗米地辛和阿糖胞苷联合用药可以显著抑制肺腺癌细胞A549的生长(P<0.05)。体外Transwell细胞侵袭实验和划痕实验表明,联合用药可有效降低肺腺癌细胞的侵袭和转移能力(P<0.05)。同时,流式细胞分析显示,联合用药可以显著诱导肺腺癌细胞的凋亡(P<0.05),并且实时PCR和Western印迹结果提示,肺腺癌细胞A549在联合用药处理后,凋亡相关蛋白质CASP3的mRNA和蛋白质表达水平均明显升高。另外,通过检测联合用药后,A549细胞的组蛋白乙酰化修饰情况发现,H3K14位点乙酰化水平被明显上调,并且ChIP分析进一步显示,CASP3启动子区域组蛋白H3K14乙酰化水平在联合用药后明显增加(P<0.05)。本研究揭示了罗米地辛与阿糖胞苷联合用药能通过增强CASP3启动子区组蛋白H3K14乙酰化水平进而促进CASP3的转录和蛋白质表达,从而抑制肺腺癌细胞的生长、增殖、迁移和侵袭,促进其凋亡的分子机制。在分子和细胞水平上为罗米地辛和阿糖胞苷联合用药治疗肺腺癌提供依据,并为肺腺癌的临床治疗提供切实参考。     

Prolonged Alzheimer-like tau hyperphosphorylation induced by simultaneous inhibition of phosphoinositol-3 kinase and protein kinase C in N2a cells

Co-injection of wortmannin (inhibitor of phosphatidylinositol-3 kinase, PI3K) and GF109203X(inhibitor of protein kinase C, PKC) into the rat brain was found to induce spatial memory deficiency and enhance tau hyperphosphorylation in the hippocampus of rat brain. To establish a cell model with durative Alzheimer-like tau hyperphosphorylation in this study, we treated N2a neuroblastoma cells with wortmannin and GF109203X separately and simultaneously, and measured the glycogen synthase kinase 3 (GSK-3)activity by y-32p-labeling and the level of tau phosphorylation by Western blotting. It was found that the application of wortmannin alone only transitorily increased the activity of GSK-3 (about 1 h) and the level of tau hyperphosphorylation at Ser^396/Ser^404 and Ser^199/Ser^202 sites (no longer than 3 h); however, a prolonged and intense activation of GSK-3 (over 12 h) and enhanced tau hyperphosphorylation (about 24 h) were observed when these two selective kinase inhibitors were applied together. We conclude that the simultaneous inhibition of PI3K and PKC can induce GSK-3 overactivation, and further strengthen and prolong the Alzheimerlike tau hyperphosphorylation in N2a cells, suggesting the establishment of a cell model with early pathological events of Alzheimer‘s disease.     

LC3相关吞噬作用与病原微生物感染

LC3相关吞噬作用(LC3-associated phagocytosis,LAP)是一种宿主细胞吞噬和降解病原体的高效过程。近年来越来越多的研究表明,LAP在清除病原微生物感染过程中具有非常重要的作用,其作用机制不同于传统的吞噬作用和自噬作用。在外源刺激下,宿主细胞通过招募自噬相关的蛋白实现LC3向单层膜吞噬泡的聚集,从而提高其吞噬和杀伤病原体的效率。不同病原微生物应对LAP的杀伤作用的方式是不同的,本文对LAP发生的一般规律、各种微生物感染过程中LAP发生的不同情况及其近期研究进展予以综述。     

Long noncoding RNA MEG3 regulates rheumatoid arthritis by targeting NLRC5

Rheumatoid arthritis (RA) is one of the chronic systemic autoimmune diseases that cardinally affect the joints. Many people all over the world suffer from the disease. Fibroblast-like synoviocytes (FLSs) play a significant role in the occurrence and development of RA. The long noncoding RNA maternally expressed gene 3 (MEG3) is an imprinted gene, which participates in various cancers as a tumor suppressor. Previous studies have shown that nucleotide oligomerization domain (NOD)-like receptors 5 (NLRC5) plays a key role in inflammatory and autoimmune diseases. Nonetheless, we know very little about the biofunctionality of MEG3 during the development of RA. In this paper, we used complete Freund's adjuvant (CFA)-induced rats as RA animal models. The level of MEG3 significantly reduced in CFA-induced synovial tissues and FLSs, whereas the NLRC5 levels were increased. Enforced expression of MEG3 may be responsible for the decreased level of NLRC5 and inflammatory cytokine level. The results of methylation-specific PCR suggested that the MEG3 gene promoter was significantly methylated in CFA-induced synovial tissues and FLSs. More important, hypermethylation of MEG3 promoter could be inhibited by 5-aza-2-deoxycytidine (5-azadC; methylation inhibitor). Besides, the expression of NLRC5 significantly decreased followed by 5-azadc. Furthermore, DNA methyltransferases 1 (DNMT1) increased in CFA-induced synovial tissues and cells. These results indicated that MEG3 regulates RA by targeting NLRC5 potentially.