白藜芦醇对猪原代前体脂肪细胞的增殖与分化及Sirt1基因转录表达时序的影响

分别以0μmol/L(对照组)、10μmol/L(低剂量组),20μmol/L(中等剂量组),50μmol/L,100μmol/L(高剂量组)的白藜芦醇(Resveratrol,RES)处理体外培养1~3日龄健康仔猪前体脂肪细胞,采用MTT比色法检测细胞活性及增殖状况;油红O染色化学比色法定量分析细胞内脂肪生成及细胞分化程度;RT-PCR法分析Sirt1(sirtuin1)mRNA表达情况,探讨Sirt1对猪前体脂肪细胞增殖分化的影响及其分子机制。结果表明,脂肪细胞经RES处理后,各组MTT和油红O染色测得的光密度值(OD值)均低于对照组,50μmol/L,100μmol/L组在96~120h作用极显著(P<0.01),与中低剂量组差异显著(P<0.05);以20μmol/L,100μmol/LRES处理细胞后,Sirt1mRNA表达量随细胞分化的进行而逐渐升高,100μmol/L组均显著高于对照组和20μmol/L组(P<0.05)。RES对猪前体脂肪细胞增殖分化均有一定抑制作用,高剂量RES(50μmol/L和100μmol/L)可显著减少细胞内脂肪的合成、抑制脂肪细胞增殖与分化,Sirt1mRNA表达量显著升高可能是RES抑制细胞分化的重要原因之一。     

白藜芦醇对猪原代前体脂肪细胞的增殖与分化及Sirtl基因转录表达时序的影响

分别以0μmol/L (对照组)、10μmol/L (低剂量组),20μmol/ L (中等剂量组),50μmol/L, 100μmol/ L (高剂量组)的白藜芦醇（Resveratrol,RES）处理体外培养1～3日龄健康仔猪前体脂肪细胞,采用MTT比色法检测细胞活性及增殖状况;油红O染色化学比色法定量分析细胞内脂肪生成及细胞分化程度;RT-PCR法分析Sirt1 (sirtuin1) mRNA 表达情况,探讨Sirt1对猪前体脂肪细胞增殖分化的影响及其分子机制。结果表明,脂肪细胞经RES处理后,各组MTT和油红O染色测得的光密度值(OD值)均低于对照组, 50μmol/L, 100μmol/L组在96～120h作用极显著(P<0.01),与中低剂量组差异显著(P<0.05);以20μmol/L,100μmol/L RES处理细胞后,Sirt1 mRNA表达量随细胞分化的进行而逐渐升高,100μmol/L组均显著高于对照组和20μmol/L组(P<0.05)。RES对猪前体脂肪细胞增殖分化均有一定抑制作用,高剂量RES (50μmol/L和 100μmol/L)可显著减少细胞内脂肪的合成、抑制脂肪细胞增殖与分化, Sirt1 mRNA表达量显著升高可能是RES抑制细胞分化的重要原因之一。     

黄芩素对猪前体脂肪细胞增殖分化的影响

研究黄芩素(BAI)对猪前体脂肪细胞增殖分化的影响,并探讨其可能的作用机制。原代培养猪前体脂肪细胞,采用油红O染色观察细胞分化的形态学变化;MTT检测细胞增殖状况;油红O染色提取定量分析细胞内脂肪生成及细胞分化程度;分光光度法测定脂肪酸合酶(FAS)的活性;逆转录-聚合酶链反应(RT-PCR)检测分化特异基因过氧化物酶体增殖物激活受体γ2(PPARγ2)mRNA表达变化。结果显示,前体脂肪细胞在分化成脂肪细胞的过程中,其形态由梭形变成椭圆形、圆形,细胞内充满大小不一的脂滴;BAI浓度在160～640μmol/L时显著抑制其增殖(P<0.05)、BAI浓度为40～320μmol/L时显著抑制PPARγ2mRNA表达和FAS的活性,并抑制细胞分化(P<0.05)。以上结果说明,BAI对前体脂肪细胞增殖分化均有一定抑制作用,BAI可能通过抑制PPARγ2mRNA表达和降低FAS活性,从而抑制猪前体脂肪细胞分化。     

EGCG对猪前体脂肪细胞增殖和分化的作用

表没食子儿茶素没食子酸酯（Epigallocatechin-3-gallate,EGCG）是绿茶提取物EGCG的生物活性成分,为了探讨其对猪前体脂肪细胞增殖和分化的影响,以不同浓度EGCG处理猪前体脂肪细胞,MTT法测定EGCG对猪前体脂肪细胞生长的影响;油红O染色检测猪前体脂肪细胞的形态学变化;油红O染色提取法定量分析脂肪细胞充脂量的变化;半定量RT-PCR检测分化转录因子过氧化物酶体增生物激活受体佗（PPARγ2）和CCAAT／增强子结合蛋白α（C／EBPα）mRNA表达水平变化。结果显示：EGCG随着浓度的递增显著抑制猪前体脂肪细胞的增殖（P〈0．01）;低浓度的EGCG（5μmol／L）不影响脂肪细胞分化,而高浓度EGCG（200μmol／L）显著抑制猪前体脂肪细胞分化,同时下调PPARγ2和C／EBPαmRNA表达,本研究结果表明EGCG可抑制猪前体脂肪细胞的增殖和分化。     

维生素C通过调控脂肪形成相关基因的转录促进猪前体脂肪细胞的增殖与分化

探讨维生素C（Vit C）诱导猪前体脂肪细胞增殖分化最佳浓度及在分化过程中,5种脂肪形成相关基因peroxisome proliferator activated receptor gamma(PPARγ)和retinoid X receptor alpha(RXRα),脂肪细胞分化标志基因lipoprotein lipase (LPL),生脂基因phosphoenolpyruvate carboxykinase(PEPCK)、stearoyl CoA desaturase(SCD) mRNA表达时序性的变化. 以3　d龄猪前体脂肪细胞为实验对象,用Vit C诱导猪前体脂肪细胞增殖分化,分别在增殖分化第2、4、6和8 d收获细胞,利用MTT测定其增殖程度;油红O染色提取法检测其脂肪含量;采用SQ RT PCR法检测脂肪生成相关基因PPARγ、RXRα、LPL、PEPCK和SCD mRNA表达的变化. 结果显示,PPARγ mRNA在诱导分化第2 d时有低水平表达,在诱导分化过程中表达量逐步升高,在终末分化阶段仍保持高水平表达;RXRα mRNA在诱导分化第2和4 d表达量很低,诱导分化第6 d时表达增加.在诱导分化第8 d,RXRα mRNA表达与第6 d相比差异不显著,直至终末分化. 脂肪细胞分化标志基因LPL在第2 d开始表达,第4和6 d逐步升高,在终末分化阶段仍保持高水平的表达;生脂基因PEPCK和SCD mRNA在第2和4 d开始表达,第6和8 d仍保持高水平的表达. 研究结果表明,100 μmol/L的Vit C促进猪前体脂肪细胞增殖能力最强;250 μmol/L Vit C能显著促进猪前体脂肪细胞分化. 其作用机制可能是通过对转录因子PPARγ和RXRα及标志基因LPL mRNA时序性表达的调控来进行的,促进生脂基因的表达,从而诱导脂肪细胞的分化.     

EPA对草鱼前体脂肪细胞增殖分化的影响

体外培养草鱼前体脂肪细胞,并用不同浓度(0-100 μmol/L)二十碳五烯酸(Eicosapentaenoic acid,EPA)进行处理,噻唑兰比色法(Methyl thiazolte trazoliu,MTT)和油红O染色提取法检测EPA对细胞增殖及分化的影响,Real-time qPCR检测过氧化物酶增殖激活受体家族(Peroxidase proliferation activated receptor,PPARs)、脂蛋白酯酶(Lipoprotein lipase,LPL)、过氧化物酶体增殖激活受体γ辅助活化因子1α (Peroxisome proliferatoractivated receptor gamma coactivator-1α,PGC-1α)等基因的表达情况.结果显示,不同浓度EPA在2d内均显著促进草鱼前体脂肪细胞增殖(P＜0.05);不同浓度EPA处理ld后均显著抑制草鱼前体脂肪细胞分化(P＜0.05),且100μmol/L EPA处理细胞2d可显著促进LPL和PGC-1α基因的表达(P＜0.05).研究表明,EPA可促进草鱼前体脂肪细胞增殖,抑制其分化,该抑制作用与其调控PGC-1α、LPL等脂代谢基因的表达有关.     

罗格列酮和血清脂对绵羊前体脂肪细胞分化的影响

目的探讨罗格列酮(rosiglitazone,Ros)和血清脂(serum lipid,Lip)对绵羊前体脂肪细胞分化的影响及不同组织来源的前体脂肪细胞分化影响的差异。方法用不同浓度的Ros和(或)Lip培养绵羊皮下前体脂肪细胞和肾周前体脂肪细胞,通过测量3-磷酸甘油脱氢酶(GPDH)活性和油红O染色萃取液A值分析前体脂肪细胞的分化程度和脂肪细胞充脂量的变化,应用实时荧光定量PCR检测PPARγ和LPL mRNA的表达水平。结果 Ros和Lip提高细胞GPDH活性和脂滴的沉积量(P<0.05),上调LPL mRNA表达(P<0.05),最佳浓度分别为100nmol/L和20μL/mL;最佳浓度条件下Ros的诱导作用强于Lip(P<0.05),Ros显著提高了PPARγmRNA表达量(P<0.05),而Lip对PPARγmRNA的表达没有明显影响(P>0.05);Ros和Lip共同诱导与Ros单独作用之间没有明显差异(P>0.05);在相同诱导分化条件下,皮下前体脂肪细胞的分化程度高于肾周前体脂肪细胞(P<0.05)。结论研究结果表明Ros和Lip可促进绵羊前体脂肪细胞的分化,在相同条件下,皮下前体脂肪细胞的分化能力强于肾周前体脂肪细胞。     

二十二碳六烯酸对大鼠脂肪细胞增殖分化的影响

体外培养大鼠脂肪细胞,分别以0 μmol/L（对照组）、40 μmol/L（低剂量组）和160 μmol/L（高剂量组）的二十二碳六烯酸（DHA）处理细胞。采用台盼蓝排斥试验和MTT比色法检测细胞活性及增殖状况;油红O染色化学比色法定量分析细胞内脂肪生成及细胞分化程度;逆转录聚合酶链反应 (RT-PCR) 分析过氧化物酶增殖物激活受体γ2（PPARγ2）mRNA表达情况,探讨DHA对前体脂肪细胞增殖分化的影响及其可能机制。结果显示,各组细胞活力及MTT测得的光密度值(OD值)均低于对照组,160μmol/L组在60～72h作用显著（P<0.05）;脂肪细胞经DHA处理后, 160μmol/L组细胞油红O染色的OD值及PPARγ2 mRNA表达量均显著下降(P<0.01)。以上结果说明,DHA对脂肪细胞增殖分化均有一定抑制作用,高剂量DHA（160μmol/L）可显著减少细胞内脂肪的合成、抑制脂肪细胞分化,PPARγ2 mRNA表达量的下降可能是DHA抑制细胞分化的部分原因。     

瘦素(Leptin )对猪前体脂肪细胞分化及PGC-1α和UCPs mRNA表达的影响

 以体外培养的猪前体脂肪细胞为研究对象,分析瘦素(leptin )对前体脂肪细胞分化及能量代谢相关基因PGC- 1α和UCPs mRNA表达的影响.油红O染色提取结果显示,10～90nmol/L的leptin对猪前体脂肪细胞甘油三酯合成均无显著影响(P>0.05).RT-PCR检测结果表明,30　nmol/L和100nmol/L leptin可显著促进LPL mRNA表达,处理24 h较12 h 作用效果明显(P<0.05);两个浓度的leptin对脂肪细胞分化转录因子C/EBPα和PPARγ2在mRNA水平上均没有明显的影响(P>0.05).对能量代谢相关基因的RT-PCR检测结果表明,30 nmol/L 和100nmol/L leptin 可显著促进PGC-1α和UCP3转录 (P<0.05),30nmol/L leptin可明显提高前脂肪细胞中UCP2 mRNA水平(P<0.05),且作用24h促进效果明显优于12h处理(P<0.05).研究结果提示,leptin不影响猪前体脂肪细胞分化,但可能通过上调PGC-1α和UCPs转录,促进能量消耗.     

共轭亚油酸对前脂肪细胞增殖分化的影响

培养前脂肪细胞3T3-L1,MTT法检测CLA对3T3-L1增殖的影响;以油红O染色检测3T3-L1分化过程胞内脂肪的堆积;同时采用逆转录-聚合酶链式反应(RT-PCR)检测CLA对过氧化物酶体增殖物激活受体γ2(PPARγ2)mRNA表达的影响.结果显示: t10,c12-CLA以及CLA混合物对前脂肪细胞3T3-L1增殖均有显著的抑制作用(P<0.05).油红染色比色结果表明,t10,c12-CLA具有显著的抑制脂肪分化作用(P<0.05).RT-PCR结果显示,在前脂肪细胞3T3-L1分化过程中,经100 μmol/L t10,c12-CLA和50 μmol/L t10,c12-CLA处理后PPARγ2 mRNA表达量分别为对照组的52.1%,83.0%.     

A Unique Protease Cleavage Site Predicted in the Spike Protein of the Novel Pneumonia Coronavirus (2019-nCoV) Potentially Related to Viral Transmissibility

正Dear Editor,In December 2019, a novel human coronavirus caused an epidemic of severe pneumonia(Coronavirus Disease 2019,COVID-19) in Wuhan, Hubei, China(Wu et al. 2020; Zhu et al. 2020). So far, this virus has spread to all areas of China and even to other countries. The epidemic has caused 67,102 confirmed infections with 1526 fatal cases     

Curcuminoids as inhibitors of thioredoxin reductase: A receptor based pharmacophore study with distance mapping of the active site

Curcumin is the yellow pigment of turmeric that interacts irreversibly forming an adduct with thioredoxin reductase (TrxR), an enzyme responsible for redox control of cell and defence against oxidative stress. Docking at both the active sites of TrxR was performed to compare the potency of three naturally occurring curcuminoids, namely curcumin, demethoxy curcumin and bis-demethoxy curcumin. Results show that active sites of TrxR occur at the junction of E and F chains. Volume and area of both cavities is predicted. It has been concluded by distance mapping of the most active conformations that Se atom of catalytic residue SeCYS498, is at a distance of 3.56 from C13 of demethoxy curcumin at the E chain active site, whereas C13 carbon atom forms adduct with Se atom of SeCys 498. We report that at least one methoxy group in curcuminoids is necessary for interation with catalytic residues of thioredoxin. Pharmacophore of both active sites of the TrxR receptor for curcumin and demethoxy curcumin molecules has been drawn and proposed for design and synthesis of most probable potent antiproliferative synthetic drugs.     

Comparative morphology of the carpel in the Liliaceae: Hewardieae, Petrosavieae, and Tricyrteae

The young pistils in the melanthioid tribes, Hewardieae, Petrosavieae and Tricyrteae, are uniformly tricarpellate and syncarpous. They lack raphide idioblasts. All are multiovulate, with bitegmic ovules. The Petrosavieae are marked by the presence of septal glands and incomplete syncarpy. Tepals and stamens adhere to the ovary in the Hewardieae and the Petrosavieae but not in the Tricyrteae. Two vascular bundles occur in the stamens of the Hewartlieae and Tricyrtis latifolia. Ventral bundles in the upper part of the ovary of the Hewardieae are continuous with compound septal bundles and placental bundles in the lower part. Putative ventral bundles occur in the alternate position in the Tricyrteae and putative placental bundles in the opposite. position in the Petrosavieae. The dichtomously branched stigma in each carpel of the Tricyrteae is supplied by a bifurcated dorsal bundle.     

Enterovirus 71 3C proteolytically processes the histone H3 N-terminal tail during infection

Highlights
1. The N-terminal tail of histone H3 is specifically cleaved during EV71 infection.
2. Viral protease 3C is identified as a protease responsible for proteolytically processing the N-terminal H3 tail.
3. Our finding reveals a new epigenetic regulatory mechanism for Enterovirus 71 in virus-host interactions.     

Detection of EBV and HHV6 in the Brain Tissue of Patients with Rasmussen’s Encephalitis

Rasmussen’s encephalitis (RE) is a rare pediatric neurological disorder, and the exact etiology is not clear. Viral infection may be involved in the pathogenesis of RE, but conflicting results have reported. In this study, we evaluated the expression of both Epstein-Barr virus (EBV) and human herpes virus (HHV) 6 antigens in brain sections from 30 patients with RE and 16 control individuals by immunohistochemistry. In the RE group, EBV and HHV6 antigens were detected in 56.7% (17/30) and 50% (15/30) of individuals, respectively. In contrast, no detectable EBV and HHV6 antigen expression was found in brain tissues of the control group. The co-expression of EBV and HHV6 was detected in 20.0% (6/30) of individuals. In particular, a 4-year-old boy had a typical clinical course, including a medical history of viral encephalitis, intractable epilepsy, and hemispheric atrophy. The co-expression of EBV and HHV6 was detected in neurons and astrocytes in the brain tissue, accompanied by a high frequency of CD8⁺ T cells. Our results suggest that EBV and HHV6 infection and the activation of CD8⁺ T cells are involved in the pathogenesis of RE.     

Perinatal Vertical Transmission of Chikungunya Virus in Ruili,a Town on the Border between China and Myanmar

正Dear Editor,Chikungunya virus (CHIKV), an arbovirus in the family of Togaviridae, genus Alphavirus, is transmitted by the A.aegyptii or A. albopictus mosquito, and causes disease in humans characterized by fever, rash, and arthralgia (Silva and Dermody 2017; Suhrbier 2019). It was first reported in 1953 in Tanzania, and caused only a few outbreaks and sporadic cases in Africa and Asia in last century. However, in the epidemic in 2004, CHIKV acquired mutations that conferred enhanced transmission by the A. albopictus mosquito(Schuffenecker et al. 2006). Since then, it has successively caused outbreaks in Africa, the Indian Ocean, South East Asia, the South America, and Europe (Zeller et al. 2016).     

Development of a Novel Reverse Transcription Loop-Mediated Isothermal Amplification Method for Rapid Detection of SARS-CoV-2

In conclusion, the novel visual RT-LAMP assay is a simple, rapid, and sensitive approach for detection of SARS-CoV-2, and it is ready for application in primary care and community hospitals or health care centers, and even patients' own houses in response to the current SARS-CoV-2 epidemic because the assay does not require sophisticated equipment and skilled personnel. Furthermore, it is also ready to be used in fields for screening samples from wild animals and environments to facilitate the identification of potential intermediate hosts that mediate the cross-species transmission of SARS-CoV-2 from bats to humans.