三阴性乳腺癌患者ASH2L、HOXA2表达及其与淋巴转移的关系

目的探讨三阴性乳腺癌(TNBC)患者ASH2样蛋白(ASH2L)和同源异型盒A2(HOXA2)的表达及其与淋巴转移的关系。方法选取2016年6月—2020年6月南阳市中心医院TNBC患者80例,收集其癌组织样本;另收集60例配对癌旁组织(距肿瘤边缘≥5 cm)样本作为对照。收集所有患者的临床病理资料,并检测ASH2L、HOXA2 mRNA和蛋白的表达。采用受试者工作特征(ROC)曲线评价ASH2L mRNA、HOXA2 mRNA判断TNBC患者淋巴转移的效能。结果癌组织中ASH2L mRNA、HOXA2 mRNA相对表达量和蛋白阳性率均显著高于癌旁组织(P<0.05)。有淋巴转移、TNM分期Ⅲ~Ⅳ期的TNBC患者癌组织ASH2L蛋白、HOXA2蛋白阳性率分别显著高于无淋巴转移和TNM分期Ⅰ~Ⅱ期的患者(P<0.05)。不同年龄、肿瘤大小、绝经状态的TNBC患者之间癌组织ASH2L蛋白、HOXA2蛋白阳性率差异无统计学意义(P>0.05)。有淋巴转移的TNBC患者癌组织中ASH2L mRNA、HOXA2 mRNA相对表达量显著高于无淋巴转移的患者(P<0.05)。ASH2L mRNA、HOXA2 mRNA单项检测和联合检测诊断TNBC患者淋巴转移的曲线下面积(AUC)分别为0.706、0.791、0.895。结论TNBC患者癌组织中ASH2L、HOXA2 mRNA和蛋白均呈高表达,且与TNM分期和淋巴转移有关。

ASH2L在幽门螺旋杆菌感染的人胃癌细胞系中的表达及临床意义

目的探索果蝇蛋白Ash2的类似物(ASH2L)在幽门螺旋杆菌(Hp)感染的人胃癌细胞系中的表达水平及临床意义。方法利用TIMER2.0、UALCAN等生物信息软件分析ASH2L在多种肿瘤中的表达水平、与胃腺癌患者临床病理特征及与预后的关系。用Hp分别感染人胃上皮细胞系GES、人胃腺癌细胞系SGC-7901和AGS,以RT-qPCR、Western blot检测ASH2L在Hp感染前后的表达水平。结果生物信息分析显示ASH2L在15种肿瘤中存在差异表达,且其高表达于胃腺癌组织中;在胃癌患者中,ASH2L高表达者总生存期(OS)和后进展生存期(PPS)低于低表达者(P<0.05);不同年龄组、不同种族、不同病理分级的胃腺癌患者中ASH2L的表达存在一定的差异,但与男女性别无关;Hp感染的3种人胃上皮细胞系中ASH2L表达水平均显著上调(P<0.05)。结论ASH2L在Hp感染引发的胃癌的发生发展中可能发挥重要作用,其表达水平与胃癌患者各种临床病理特征及预后密切相关,可望作为判断预后的分子标志物。

ASH2L在上皮性卵巢癌中的表达及其对SKOV-3细胞系增殖的影响

目的探讨混合谱系白血病(MLL)甲基转移酶的核心亚单位ASH2L对人上皮性卵巢癌细胞系SKOV-3增殖的影响。方法免疫组化方法检测上皮性卵巢癌组织标本中ASH2L蛋白表达的定位。Western blot法检测卵巢癌组织标本和正常卵巢组织标本中ASH2L的表达水平,以及卵巢癌细胞系SKOV-3中ASH2L的表达水平。采用ployplus试剂介导ASH2L质粒转染,通过Western blot法验证ASH2L的转染效率,并利用CCK-8法检测转染后SKOV-3细胞的增殖情况。结果ASH2L蛋白表达定位于卵巢癌组织细胞核内。与正常人的卵巢组织相比,上皮性卵巢癌组织中ASH2L蛋白表达水平上调(P<0.01),与293T细胞系相比,SKOV-3细胞系中ASH2L蛋白表达水平上调(P<0.05)。SKOV-3细胞系在转染ASH2L质粒后,细胞中ASH2L蛋白的表达升高,与空载质粒转染的SKOV-3细胞相比,ASH2L质粒转染的SKOV-3细胞增殖增加(P<0.01)。结论ASH2L在上皮性卵巢癌中表达升高。高表达的ASH2L可促进卵巢上皮性肿瘤细胞SKOV-3的增殖。

COMPASS核心成员Ash2l通过调控细胞周期影响神经祖细胞增殖

为探究Ash2l(absent,small,or homeotic 2-like,Ash2l)对小鼠大脑皮质神经祖细胞(neural progenitor cells,NPCs)的增殖能力和细胞周期的影响。本研究利用NPCs标志物PAX6和TBR2,检测NPCs数量和分布的改变情况。结果显示,Ash2l敲除导致NPCs数量显著减少(P<0.05),且分布紊乱。对E16.5小鼠进行在体30 min EdU标记实验,检测NPCs增殖能力,Ash2l敲除导致30 min EdU几乎无法进入NPCs(P<0.001)。结果表示,NPCs增殖能力受到严重的影响。用细胞周期M期标志物pH3,检测大脑皮质中处于M期的NPCs分布情况,同时提取了E16.5小鼠大脑皮质蛋白质,检测细胞周期蛋白A的表达量。Ash2l敲除的NPCs的M期细胞核分布紊乱,G_(2)期标志蛋白质细胞周期蛋白A表达量减少。利用EdU和BrdU双标记法,计算NPCs的S期长度。Ash2l敲除后的NPCs的S期长度缩短(P<0.05)。因此,Ash2l调控NPCs细胞周期进程,进而影响NPCs的增殖能力,敲除小鼠大脑皮质发育异常。本研究强调了表观遗传调控对胚胎期神经系统发育的重要作用,并对表型进行了深入探索。

Ash2L、抗内皮细胞抗体与川崎病患儿冠脉血管损伤的关系

目的探讨Ash2样蛋白(Ash2L)、抗内皮细胞抗体(AECA)与川崎病患儿冠脉血管损伤的关系。方法选取2017年1月-2019年2月在我院治疗的川崎病患儿87例(观察组),其中伴有冠脉损伤患儿50例,同时选取健康儿童80例作为对照组,检测血清Ash2L和AECA,同时超声心动图检测观察组左冠状动脉内径(LCA)/主动脉瓣环内径(AAO)。结果观察组血清Ash2L和AECA分别为3.50±0.71pg/ml和910.03±120.32pg/ml,明显高于对照组(P<0.05);有冠脉损伤患儿血清Ash2L、AECA及LCA/AAO分别为3.83±0.56pg/ml、989.21±140.23pg/ml和0.29±0.06,明显高于无冠脉损伤患儿(P<0.05);血清Ash2L、AECA与LCA/AAO呈正相关(r=0.825和0.876,P<0.05);Ash2L、AECA及LCA/AAO诊断有冠脉损伤的ROC曲线下面积分别为0.736、0.734和0.755,P<0.05,截断值分别为3.60pg/ml、920.50pg/ml和0.20,灵敏性分别为78.00%、77.50%和80.00%,特异性分别为66.00%、64.00%和67.80%。结论川崎病患儿血清Ash2L、AECA明显升高,与冠脉血管损伤存在一定相关性,值得进一步研究。

Ash2l-1/Ash2l-2在小鼠胚胎干细胞中的表达特异性及互补效应

H3K4me3是一种重要的表观遗传修饰,主要由MLL(mixed lineage leukemia)甲基转移酶复合体催化,对小鼠胚胎干细胞(mouse embryonic stem cells,m ESCs)自我更新能力的维持具有重要作用。ASH2L是MLL复合体中一个重要的核心亚单位,参与调控m ESCs中染色质的开放状态。ASH2L在m ESCs中有2个异构体:ASH2L-1(80 k Da)和ASH2L-2(65 k Da),且以ASH2L-2的表达为主;而在小鼠胚胎成纤维细胞(mouse embryonic fibroblast,MEF)中,只有ASH2L-1表达。目前,Ash2l-1和Ash2l-2在m ESCs中的作用尚不清楚。本文利用CRISPR/Cas9基因组编辑技术,建立了Ash2l-1^(–/–)和Ash2l-2^(–/–)m ESCs。通过碱性磷酸酶染色、免疫荧光染色和q RT-PCR发现,Ash2l-1^(–/–)和Ash2l-2^(–/–)m ESCs在碱性磷酸酶、多能性调控转录因子(Oct4、Nanog、Sox2和Klf4)的表达与野生型对照无显著差异。通过拟胚体分化实验,发现Ash2l-1^(–/–)m ESCs诱导的拟胚体在Snai2(外胚层标记基因)和Gata4(内胚层标记基因)的表达上显著低于野生型m ESCs诱导的拟胚体(P<0.01)。通过Western blotting,发现Ash2l-1^(–/–)m ESCs中ASH2L-2的表达显著上调(P<0.01),Ash2l-2^(–/–)m ESCs中ASH2L-1的表达显著上调(P<0.01),而Ash2l-1^(–/–)和Ash2l-2^(–/–)m ESCs中,基因组H3K4me3的表达与野生型对照并无显著差异。这表明Ash2l-1和Ash2l-2之间存在补偿效应。利用JASPAR和KEGG预测分析发现,Ash2l-1和Ash2l-2启动子区分别具有3个和16个潜在的多能性转录因子结合位点,这些转录因子可能介导实现Ash2l-1和Ash2l-2之间的补偿效应。以上结果表明,Ash2l-1和Ash2l-2之间的补偿效应可能参与m ESCs多能性的维持和基因组H3K4me3的调控。

组蛋白H3K4甲基转移酶复合物亚基Ash2参与裂殖酵母产孢

在氮源缺乏及信息素存在的条件下,裂殖酵母(Schizosaccharomyces pombe)进行减数分裂并完成产孢。在此过程中,信息素介导的MAPK(Mitogen-activated protein kinases)信号通路调控减数分裂相关基因的表达。Spk1是MAPK通路的核心成员,通过蛋白磷酸化的方式激活转录因子Ste11,从而激活mei2+、mam2+和map3+等减数分裂相关基因的表达。尽管组蛋白H3K4甲基化参与基因转录激活、染色质重塑等诸多生物学过程,但其在裂殖酵母产孢过程中的作用并不清楚。文章通过序列比对,发现裂殖酵母Ash2作为H3K4甲基转移酶复合物COMPASS的亚基具有两个保守的结构域,定位于细胞核内参与H3K4的甲基化修饰。ash2+的缺失引起裂殖酵母在氮源缺乏时产孢过程的延迟及产孢率下降。ChIP、定量PCR分析结果显示,ash2+的缺失降低了spk1+编码区H3K4的二甲基化水平,造成spk1+mRNA水平的明显下调。在ash2Δ细胞中,虽然ste11+的转录水平没有变化,但Ste11的靶基因mei2+、mam2+和map3+的转录水平明显下降。在裂殖酵母中,组蛋白H3K4甲基转移酶复合物COMPASS的亚基Ash2通过调控二甲基化水平修饰从而调节MAPK信号通路,参与裂殖酵母的有性生殖,为建立表观遗传修饰与减数分裂之间的联系提供了新的线索。

组蛋白甲基转移酶ASH2的研究进展

表观遗传修饰通过改变染色质空间构象和基因表达调控胚胎发育、细胞分化、器官发生和癌症形成,其调控形式包括组蛋白甲基化、组蛋白乙酰化、DNA甲基化、基因印迹和X染色体失活等。缺失的、小的、同源异形2(absent,small,homologous 2,ASH2)是组蛋白赖氨酸甲基转移酶复合物的核心成分,其属于三胸腔结构蛋白家族;在哺乳动物中ASH2可特异性甲基化H3K4,激活基因转录。在介绍组蛋白甲基化和三胸腔结构蛋白的基础上,综述了ASH2甲基酶对基因转录、HOX基因表达、癌症发生发展和细胞分化的调控功能,以期为其在动物繁育和人类疾病治疗中的应用提供思路。

三胸家族核心成员DPY30与ASH2L的表达相关性分析

目的探究三胸家族(TrxG)核心成员DPY30与ASH2L表达是否具有相关性。方法Northern blot检测DPY30与ASH2L在多种人体组织中的表达及佛波醇肉豆蔻酸酯(PMA)诱导人慢性髓源白血病(K562)细胞分化过程中的DPY30与ASH2L表达变化;Western blot与RT-qPCR分别检测ASH2L条件性敲除小鼠(ASH2L-cKO)大脑皮质TrxG成员的蛋白及TrxG核心成员RNA表达情况;利用IGV软件可视化分析小鼠大脑皮质ChIP-seq结果中ASH2L、H3K4me3在ASH2L、DPY30基因染色质上的分布情况。结果DPY30与ASH2L的表达在人体各组织中分布有一定相似性;DPY30与ASH2L在PMA诱导K562细胞分化过程中的表达均逐渐减少;ASH2L-cKO小鼠大脑皮质中DPY30蛋白水平减少,DPY30的RNA水平改变无统计学意义。结论DPY30与ASH2L的表达具有相关性,ASH2L可能调控了DPY30蛋白水平。

Ash2l-1调控小鼠卵黄囊早期造血

作为甲基转移酶MLL/SET1复合体的核心成分之一,ASH2L能够促进组蛋白H3K4me3修饰的形成,并在小鼠早期胚胎发育过程中行使重要功能.在小鼠中,由于启动子的选择性使用,Ash2l会转录成两种不同长度的转录本并形成两种蛋白质亚型:ASH2L-1和ASH2L-2.目前有关该基因在小鼠胚胎发育中的作用机制及不同亚型的功能还不清楚.本文利用CRISPR/Cas9技术特异敲除Ash2l-1并研究该亚型的生理学功能.研究结果发现,当Ash2l-1缺失时,小鼠胚胎在E9.5~E10.5时发生致死.特别是Ash2l-1-/-E9.5胚胎的卵黄囊血管和早期造血发育存在明显缺陷.转录组测序结果显示,Ash2l-1的缺失影响红细胞发育和成熟、血管发生和形成相关基因的表达.H3K4me3的CUT&RUN结果显示,在一些表达下调关键基因的启动子区,H3K4me3修饰水平出现下降.以上结果表明,Ash2l-1在小鼠卵黄囊的早期造血和血管形成过程中是必不可少的,它可能是通过调控关键基因启动子区的H3K4me3修饰水平而控制这些基因的表达,从而在相关过程中行使功能.

维甲酸诱导的神经管缺陷小鼠模型中神经系统相关基因的表达

目的研究在全反式维甲酸诱导小鼠神经管畸形模型中神经系统相关基因(ASH2L、HDAC4、NSPC1与DOK5)的表达变化。方法取8只E8.5的C57/BL6孕鼠随机均分为对照组和模型组。给对照组腹腔注射橄榄油,给模型组腹腔注射全反式维甲酸;E13.5取胚胎。用real-time PCR检测两组小鼠脑和脊髓中ASH2L、HDAC4、NSPC1与DOK5的mRNA表达;用Western blot检测蛋白表达。结果全反式维甲酸可诱导小鼠出现典型神经管畸形;与对照组相比,致畸胚胎脑和脊髓中,ASH2L、HDAC4、NSPC1和DOK5的mRNA和蛋白水平显著下降(P<0.05)。结论ASH2L、HDAC4、NSPC1和DOK5可能是抑制全反式维甲酸致神经管畸形的潜在基因。

AB INITIO STUDY OF LOW-LYING ELECTRONIC STATES OF THE AsH_2 RADICAL

The equilibrium geometries,excitation energies,force constants and vibrational frequencies for the low-ly- ing electronic states X ~2B_1,~2A_1,~2B_2 and ~2A_2 of the AsH_2 radical have been calculated at the MRSDCI level with a 3-21G~* basis set.Our calculated geometries,excitation enegies and vibional frequencies for the X ~2B_1 and ~2A_1 states are in good agreement with available experimental data.The electronic transition dipole mo- ments,oscillator strengths for the ~2A_1→X ~2B_1 and ~2A_2→X ~2B_1 transitions,radiative lifetimes for the ~2A_1 and ~2A_2 states are calculated based on the MRSDC^1 wavefunctions,predicting results in reasonable agreement with available experiment.

AsH(X^3Σ^-)及AsH_2(X^2B_1)自由基的分子结构与解析势能函数

运用Gaussian03程序包中的单双迭代三重激发耦合簇理论和相关一致五重基优化了AsH2的基态结构,并在优化结构的基础上计算了它的离解能和振动频率.结果表明:AsH2基态的平衡构型具有C2v对称性,键长RAs-H=0.1508nm,键角∠HAsH=91.2231°,离解能De(HAs-H)=2.8795eV,振动频率ν1(a1)=1013.3361cm-1,ν2(a1)=2225.1347cm-1,ν3(a1)=2233.7565cm-1.这些结果与实验值较为相符.对H2的基态使用优选出的cc-pV6Z基组、对AsH的基态使用优选出的cc-pV5Z基组进行平衡几何与谐振频率的计算并进行单点能扫描,且将扫描结果拟合成了Murrell-Sorbie函数.与实验数据及其他理论结果的比较表明,本文关于AsH(X3Σ-)自由基光谱常数(D0,De,Re,ωe,Be,αe和ωeχe)的计算结果达到了很高的精度并最为完整.采用多体项展式理论导出了AsH2(C2v,X2B1)自由基的解析势能函数,其等值势能图准确再现了它的离解能和平衡结构特征.首次报导了AsH2(C2v,X2B1)自由基对称伸缩振动等值势能图中存在的两个对称鞍点,对应于反应AsH+H→AsH2,势垒高度约0.1512×4.184kJ/mol.

光腔衰荡光谱技术研究AsH_2自由基:~2A_1(000)—■~2B_1(000)

采用光腔衰荡光谱(cavity ringdown spectroscopy,CRDS)技术在19870～20250cm-1能量范围内研究了AsH2自由基A2A1(000)-X2B1(000)带的高灵敏高分辨吸收光谱.AsH2自由基由AsH3/Ar混合气脉冲直流放电产生.通过对Ka′≤5,N′≤10的777根谱线进行了转动标识和最小二乘拟合,获得了精确的激发态光谱常数和转动项值.其中转动项值和部分高阶光谱常数均为首次得到.通过分析发现部分Ka′≤4的转动能级和全部Ka′≤5的能级受到了扰动,扰动很可能来自于基态的高振动激发态.

Cellular functions of MLL/SET-family histone H3 lysine 4 methyltransferase components

The MLL/SET family of histone H3 lysine 4 methyltransferases form enzyme complexes with core subunits ASH2L, WDR5, RbBP5, and DPY-30 （often abbreviated WRAD）, and are responsible for global histone H3 iysine 4 methylation, a hallmark of actively transcribed chromatin in mammalian cells. Accordingly, the function of these proteins is required for a wide variety of processes including stem cell differentiation, cell growth and division, body segmentation, and hematopoiesis. While most work on MLL-WRAD has focused on the function this core complex in histone methylation, recent studies indicate that MLL-WRAD proteins interact with a variety of other proteins and IncRNAs and can localize to cellular organelles beyond the nucleus. In this review, we focus on the recently described activities and interacting partners of MLL-WRAD both inside and outside the nucleus.

Preparation and characterization of hydrothermally engineered TiO2-fly ash composite membrane

This work targets the preparation and char-acterization of an inexpensive TiO2-fly ash composite membrane for oily wastewater treatment. The composite membrane was fabricated by depositing a hydrophilic TiO2 layer on a fly ash membrane via the hydrothermal method, and its structural, morphological and mechanical properties were evaluated. The separation potential of the composite membrane was evaluated for 100-200 mg·L^-1 synthetic oily wastewater solutions. The results show that the composite membrane has excellent separation performance and can provide permeate stream with oil concentration of only 0.26-5.83 mg·L^-1. Compared with the fly ash membrane in the average permeate flux and performance index （49.97 × 10^-4 m^3·m^2·s^-1 and 0.4620%, respectively）, the composite membrane exhibits better performance （51.63× 10^-4 m^3·m^2·s^-1 and 0.4974%）. For the composite surface methodology based ash membrane, the response analysis inferred that the optimum process parameters to achieve maximum membrane flux and rejection are 207 kPa, 200 mg·L^-1 and 0.1769 m·s^-1 for applied pressure, feed concentration and cross flow velocity, respectively. Under these conditions, predicted responses are 41.33× 10^-4 m^3·m^2·s^-1 permeate flux and 98.7% rejection, which are in good agreement with the values obtained from experimental investigations （42.84× 10^-4 m^3·m^2·s^-1 and 98.82%）. Therefore, we have demonstrated that the TiO2-fty ash composite membrane as value added product is an efficient way to recycle fly ash and thus mitigate environmental hazards associated with the disposal of oily wastewaters.

Synthesis of CeO_2/fly ash cenospheres composites as novel photocatalysts by modified pyrolysis process

A novel fly ash cenospheres（FACs）-supported CeO2 composite（CeO2/FACs） was successfully synthesized by the modified pyrolysis process.The prepared composites were characterized by X-ray diffraction（XRD）, scanning electron microscopy（SEM）, X-ray photoelectron spectroscopy（XPS）, and diffuse reflection spectra（DRS） techniques.XRD results indicated that the CeO2 film coated on cenospheres was a face-centered cubic structure.SEM images confirmed that the CeO2 film was relatively compact.XPS results showed that Ce was present as both Ce4＋ and Ce3＋ oxidation states in CeO2 film coated on FACs substrate.The bandgap of the composite was narrower compared with the pure CeO2.The as-prepared material exhibited good photocatalytic activity for the decolorization of methylene blue（MB） under visible light irradiation, and the first-order reaction rate constant（k） of 0.0028 min–1 for CeO2/FACs composite was higher than 0.0015 min–1 of pure CeO2.The fact that they floated on water meant that CeO2/FACs composites were easily recovered from water by filtration after the reaction.The recycling test revealed that the composites were quite stable during the MB photocatalytic decolorization.The CeO2/ FACs catalyst was therefore promising for practical use in the degradation of pollutants or water cleanup.

Effects of steam on CO2 absorption ability of calcium-based sorbent modified by peanut husk ash

The CO_2 absorption ability of synthetic calcium-based sorbent modified by peanut husk ash (PHA) was tested by Thermal Gravimetric Analyzer (TGA), and the effects of steam and calcination temperature were investigated. The PHA composition was analyzed by X-Ray Fluorescence (XRF), the apparent morphology was characterized by scanning electron microscope (SEM), and the phases of the sorbent before and after calcination were examined by X-ray diffraction (XRD). The addition of PHA effectively improved the cyclic stability of the calcium-based sorbent. The optimal molar ratio of SiO_2 in PHA to CaO was around 0.07. Steam had positive effect on keeping porosity of the sorbent at the chemical reaction stage, and improved its CO_2 absorption ability. Steam also reduced the diffusion resistance of the product layer, and depressed the influence of high temperature calcination. It was also found that the steam hydration after calcination was an effective way to recover the absorption ability of the sorbent, while the hydration duration of 10 min was enough.