实时荧光定量检测中国实验用小型猪肝脏CYP3A29 mRNA表达水平

CYP3A29是猪肝脏最重要的药物代谢关键酶。研究中国实验用小型猪肝脏CYP3A29 mRNA的表达特性对于评估其是否适宜于作为人CYP3A4介导的药理学研究动物模型具有一定意义。以b-actin作校正, 利用TaqMan定量技术对巴马香猪、贵州小型香猪肝脏CYP3A29 mRNA表达水平进行检测, 并以荣昌猪作为对照。结果表明, 巴马香猪、贵州小型香猪、荣昌猪肝脏CYP3A29 mRNA表达水平与报道的人肝脏CYP3A4相近; 三品系(种)猪间肝脏CYP3A29 mRNA表达水平较为接近, 但品系(种)内个体间变异较大。提示巴马香猪、贵州小型香猪作为药物评价的实验动物具有一定可行性。     

氯吡格雷对大鼠肝药物酶CYP3A4 和CYP1A2 表达的影响

目的：氯吡格雷主要由CYP3A4 催化使其激活,CYP1A2 也参与氯吡格雷活化。关于氯吡格雷对肝微粒体酶的影响国内外 文献报道不多,因此本实验通过检测肝细胞色素氧化酶CYP3A4 和CYP1A2 的表达,探讨氯吡格雷对大鼠肝药物酶的影 响。方法：生理盐水为对照组,氯吡格雷设高、中、低三个剂量组（27,13.5,6.75mg/kg/d）,雄性健康大鼠连续灌胃给药7天,脱臼处 死,取肝组织,通过western blot法检测大鼠肝脏CYP3A4 和CYP1A2 蛋白表达情况。结果：1）、氯吡格雷抑制大鼠CYP3A4 蛋白 表达,氯吡格雷高中低剂量组分别比生理盐水组大鼠CYP3A4 蛋白表达量降低（P<0.05）;氯吡格雷低中高剂量组间进行比较,大 鼠CYP3A4 蛋白表达量呈梯度减少（P<0.05）;2）、氯吡格雷抑制大鼠CYP1A2 蛋白表达,氯吡格雷高中低剂量组分别比生理盐水 组大鼠CYP1A2 蛋白表达量降低（P<0.05）,氯吡格雷低中高剂量组间进行比较,大鼠CYP1A2 蛋白表达量呈梯度减少（P<0.05）。 结论：氯吡格雷使肝细胞色素氧化酶CYP3A4 和CYP1A2 的表达量减少,因此氯吡格雷高、中、低3 个剂量组均不同程度的抑制 大鼠肝脏CYP3A4 和CYP1A2 的表达,提示当氯吡格雷与某些主要经CYP3A4 和CYP1A2 代谢的药物合用时,发生代谢性相关 作用的可能性大。     

小鼠CYP2E1基因靶向miRNA表达载体的构建及鉴定

目的设计并构建靶向小鼠CYP2E1基因的miRNA干扰质粒,为探索CYP2E1基因功能奠定基础。方法应用invitrogen设计软件设计两条干扰小鼠CYP2E1基因的靶向miRNA序列,合成相应的回文DNA序列,退火后分别连接到pcDNATM6.2-GW/EmGFP-miR载体上,构建两套miRNA真核表达载体CYP2E1-miR1和CYP2E1-miR2,并使用该载体特有的串联方法将两载体上的miRNA前体寡核苷酸序列进行串联成为CYP2E1-miR1-miR2;将上述重组载体分别与构建的pcDNA3.1（＋）-CYP2E1表达质粒共转染入293T细胞,RT-PCR法鉴定其干扰效果。结果经酶切及测序鉴定,针对鼠CYP2E1基因的miRNA干扰质粒构建成功,并能够有效抑制共转染入293T细胞的pcDNA3.1（＋）-CYP2E1质粒的表达,且串联质粒CYP2E1-miR1-miR2优于单独的干扰质粒CYP2E1-miR1及CYP2E1-miR2。结论小鼠CYP2E1基因的靶向miRNA表达载体构建成功。     

应用HRM技术对CYP2C19*2和CYP2C19*3进行双重SNP分型

氯吡格雷是一种广泛用于预防静脉血栓形成的抗血小板药物。研究表明, 携带有CYP2C19基因功能缺失型等位基因CYP2C19*2、CYP2C19*3的病人, 其体内代谢氯吡格雷成为其活性形式的能力降低, 导致氯吡格雷抑制血小板聚集功能减弱。文章旨在建立一种利用高分辨率熔解曲线分析(High-resolution melting curve analysis,HRM)技术在闭合单管中同时对CYP2C19*2、CYP2C19*3两个多态性位点进行简便、准确分型的方法。本实验针对两个SNP位点分别设计特异性的HRM引物, 并在两个位点引物的5′端分别加上富含AT和GC的序列, 保证两个位点的扩增产物熔解峰无重叠。利用HRM技术, 快速、灵敏地对64例随机DNA样本的CYP2C19*2 、CYP2C19*3两个多态性位点进行了基因分型, 且HRM方法的分型结果与测序验证结果完全一致。因此, 利用HRM技术可以实现在闭合单管中简便、准确地对CYP2C19*2 、CYP2C19*3两个多态性位点同时进行基因分型。该方法有望应用于临床, 指导氯吡格雷的个体化用药。     

草鱼肝细胞中CYP2E1活性的诱导研究

CYP2E1为代谢大部分药物及环境巾毒物的关键酶。以草鱼肝细胞（Ctenopharyngodon idellus hepatocyte）为反应体系,选取氯唑沙宗（CZX）为底物,采用反相高效液相色谱（RP-HPLC）法测定其产物6-OH-氯唑沙宗（HCZX）的量,Lowry法测定肝细胞巾蛋白的浓度从而反映CYP2E1活性,并采用该酶特异性诱导剂乙醇对其进行诱导,观察其酶活变化及CZX在细胞中代谢情况。结果表明,CZX在草鱼肝细胞中的基础代谢较低,经过对CYP2E1诱导条件的优化及筛选,得到最佳诱导剂剂量为4μg／mL、诱导时间为24h、底物浓度为50μg／mL并且孵育时间为1h时,其酶活达到最高,约为0．47μg／min&#183;mg。对照组和诱导组的草鱼肝细胞中CZX的消除半衰期（t。）分别为202．10h和28．75h,差异极显著,表明乙醇诱导的CYP2E1能够加快底物的代谢。酶促反应动力学参数表明乙醇诱导的CYP2E1与底物的亲和力较高,酶促反应强度较大。该结果能够为CYP2E1代谢的药物及环境毒物的研究提供理论依据。     

Tet调控CYP2E1基因表达细胞系的代谢能力分析

应用Tet-On基因表达系统,调控CYP2E1基因在NIH 3T3细胞中的表达水平,探讨CYP2E1在化学致癌物二甲基亚硝胺(N-nitrosodimethylamine, NDMA)代谢中的作用．先后将 Tet-on基因表达系统的调控质粒pRevTet-on和反应质粒pRevTRE-2E1转染NIH 3T3细胞,分别用G418和潮霉素筛选,并通过RT-PCR和Western印迹检测,成功获得了3个具有良好诱导性Tet调控的CYP2E1基因表达细胞系（Tet/3T3-2E1）．应用不同浓度强力霉素(doxycycline, Dox)处理Tet/3T3-2E1细胞诱导CYP2E1表达,HPLC分析细胞对CYP2E1特异性药物探针氯唑沙腙的原位代谢能力及MTT法分析CYP2E1介导的NDMA细胞毒性作用．结果显示,Tet/3T3-2E1细胞CYP2E1的表达及其代谢能力有明显的Dox浓度依赖性,而且NDMA对Dox诱导组细胞有明显浓度依赖性细胞毒性作用,其IC₅₀值为12.06 μmol/L,无Dox诱导组未见明显的NDMA细胞毒性作用．该细胞模型的成功建立对于开展与CYP2E1相关的毒物、致癌物代谢研究,筛选抗毒物、抗癌物等具有重要价值．     

云南彝族人群CYP2E1基因多态性与酒依赖的关联性研究

目的：探讨云南彝族人群中的酒精依赖患者和云南彝族人群中健康人在CYP2E1基因的一个SNP（Rs3813867）的等位基因和基因型频率的不同,试图找出酒依赖的危险基因,比较它与其他人群之间在CYP2E1PstI位（rs3813867）基因多态性的不同。方法：对110个酒精依赖者和330名健康的志愿者不喝酒（对照组）的CYP2E1PstI位的多态性,等位基因频率和基因型频率进行测定。采用PCR—RFLP方法进行基因分型。结果：CYP2 E1 Psfl位的多态性,等位基因频率和基因型频率是相似的在酒精依赖者和对照组（72．7％vs72．1％,C1／C1）,（25．5％vs25．8％,C1／C2）,（1．8％vs2．1％为C1／C2）和（85．5％vs85％c1的）,（14．5％VSl5％为c2）。结论：CYP2E1的基因型和等位基因分布在酒精依赖组和对照组之间没有显着性差异（P〉0．05）,在这两个民族在AD组和对照组基因型分布有差异（P〈0．001）。     

不同浓度A2E对离体猪视网膜色素上皮细胞的影响

目的评价体外合成的A2E对猪视网膜色素上皮（RPE）细胞的细胞活力和生物学特性影响,为进一步研究A2E在RPE细胞相关疾病中的作用提供细胞模型。方法利用全反式视黄醛和乙醇胺体外合成脂褐质荧光基团A2E。不同浓度的A2E（0,50,75,100μmol／L）作用第3代体外培养的猪RPE细胞30,45,60,90min,换10％FBS DMEM-F12培养液孵育24h后,倒置荧光显微镜观察荧光强度,IPP6．0软件灰度扫描定量荧光强度。采用MTT法检测A2E作用细胞各个时间段的吸光度值,应用SPSS11．0软件包对数据进行统计学分析,评价A2E的细胞毒性及RPE细胞活性。结果A2E被RPE细胞摄取后主要分布于细胞核周围,具有自发荧光。MTT实验及荧光灰度扫描结果显示,不同浓度的A2E被细胞摄取后细胞活力和荧光灰度扫描结果不同,以50μmol／L浓度A2E作用RPE细胞60min时,细胞内荧光强度高同时细胞活力强。结论体外培养的猪RPE细胞摄取体外合成的50μmol／L A2E 60min后细胞对A2E的摄取较多,A2E对细胞的毒性相对较低,该条件下进行A2E对离体猪RPE细胞的研究较好。     

人CYP39A1基因过表达慢病毒载体构建及其在HepG2中表达

[目的]构建人CYP39A1基因过表达慢病毒载体,并建立CYP39A1基因过表达的HepG2细胞株,为研究CYP39A1在肝细胞肝癌中的作用机制奠定基础.[方法]构建具有嘌呤霉素抗性的CYP39A1慢病毒载体,经酶切鉴定及DNA测序鉴定后,包装成重组慢病毒颗粒;用嘌呤霉素筛选获得CYP39A1过表达的HepG2稳转细胞...     

Genotype and allele frequencies of polymorphic cytochromes P450 CYP1A2 and CYP2E1 in Mexicans

CYP1A2 and CYP2E1 are two of the main cytochrome P450 isoforms involved in the metabolism of commonly used drugs and xenobiotic compounds considered to be responsible for or possible participants in the development of several human diseases. Individual susceptibility to developing these pathologies relies, among other factors, on genetic polymorphism which depends on ethnic differences, as the frequency of mutant genotypes varies in different human populations. Thus the aim of this study was to investigate the frequency of CYP1A2 5'-flanking region and CYP2E1 Rsa I/Pst I polymorphisms in Mexicans by PCR-RFLP methods. The DNA of 159 subjects was analysed and mutant allele frequencies of 30% for CYP2E1 Rsa I/Pst I sites and 43% for CYP1A2 5'-flanking region were found. These frequencies are higher than those previously reported for other human populations.     

巴马小型猪肝硬化前后肠道乳杆菌的比较研究

目的比较巴马小型猪诱导型肝硬化造模前(正常猪)和造模成功后(肝硬化猪)肠道乳杆菌的变化情况,探讨小型猪肝硬化模型在肝硬化肠道微生态研究中的适用性。方法收集肝硬化造模前和CCl4诱导肝硬化造模成功后巴马小型猪的新鲜粪便,提取粪便总菌DNA,用乳杆菌特异性引物进行PCR扩增,对扩增产物进行变性梯度凝胶电泳(Denaturing Gradient Gel-Electrophoresis,DGGE),即用PCR-DGGE分析巴马小型猪肝硬化前后肠道乳杆菌的相似性和多样性。结果聚类分析和主成分分析显示巴马小型猪肝硬化前(正常猪)和肝硬化后混杂排列,无明显界限;多样性数据分析显示巴马小型猪肝硬化前后肠道乳杆菌的丰富度(S)、微生物区系Shannon-Wiener指数(H′)和均匀度(E)差异均无统计学意义(P0.05)。结论巴马小型猪肝硬化后肠道乳杆菌与正常猪比较差异无统计学意义。     

cDNA cloning and characterization of feline CYP1A1 and CYP1A2

Deficiency of drug glucuronidation in the cat is one of the major reasons why this animal is highly sensitive to the side effects of drugs. The characterization of cytochrome P450 isoforms belonging to the CYP1A subfamily, which exhibit important drug oxidation activities such as activation of pro-carcinogens, was investigated. Two cDNAs, designated CYP1A-a and CYP1A-b, corresponding to the CYP1A subfamily were obtained from feline liver. CYP1A-a and CYP1A-b cDNAs comprise coding regions of 1554 bp and 1539 bp, and encode predicted amino acid sequences of 517 and 512 residues, respectively. These amino acid sequences contain a heme-binding cysteine and a conserved threonine. The cDNA identities, as well as the predicted amino acid sequences containing six substrate recognition sites, suggest that CYP1A-a and CYP1A-b correspond to CYP1A1 and CYP1A2, respectively. This was confirmed by the kinetic parameters of the arylhydrocarbon hydroxylase and 7-ethoxyresorufin O-deethylase activities of expressed CYPs in yeast AH22 cells and by the tissue distribution of each mRNA. However, theophylline 3-demethylation is believed to be catalyzed by CYP1A1 in cats, based on the high V(max) and low K(m) seen, in contrast to other animals. Because feline CYP1A2 had a higher K(m) for phenacetin O-deethylase activity with acetaminophen, which cannot be conjugated with glucuronic acid due to UDP-glucuronosyltransferase deficiency, it is supposed that the side effects of phenacetin as a result of toxic intermediates are severe and prolonged in cats.     

Heat stress upregulation of Toll-like receptors 2/4 and acute inflammatory cytokines in peripheral blood mononuclear cell (PBMC) of Bama miniature pigs: an in vivo and in vitro study

Global warming is a challenge to animal health, because of increased heat stress, with subsequent induction of immunosuppression and increased susceptibility to disease. Toll-like receptors (TLR) are pattern recognition receptors that act as sentinels of pathogen invasion and tissue damage. Ligation of TLRs results in a signaling cascade and production of inflammatory cytokines, which eradicate pathogens and maintain the health of the host. We hypothesized that the TLR signaling pathway plays a role in immunosuppression in heat-stressed pigs. We explored the changes in the expression of TLR2, TLR4 and the concentration of acute inflammatory cytokines, such as IL-2, IL-8, IL-12 and IFN-γ in Bama miniature pigs subjected to 21 consecutive days of heat stress, both in vitro and in vivo models. The results showed that heat stress induced the upregulation of cortisol in the plasma of pigs (P<0.05); TLR4 mRNA was elevated, but IL-2 was reduced in peripheral blood mononuclear cells (PBMC, P<0.05). The white blood cell count and the percentage of granulocytes (eosinophilic+basophilic) decreased significantly in heat-stressed pigs (P<0.05). In the in vitro model (PBMC heat shocked for 1 h followed by a 9 h recovery period), TLR2 and TLR4 mRNA expression also increased, as did the concentration of IL-12 in supernatants. However, IFN-γ was significantly reduced in PBMC culture supernatants (P<0.05). We concluded that a consecutive heat stress period elevated the expression of TLR2 and TLR4 in PBMC and increased the plasma levels of inflammatory cytokines. These data indicate that TLR activation and dysregulation of cytokine expression in response to prolonged heat stress may be associated with immunosuppression and increased susceptibility to antigenic challenge in Bama miniature pigs.     

我国巴马小型猪SLA-2基因克隆及分子特征

为研究我国巴马小型猪SLA-Ⅰ分子特征,设计引物克隆了SLA-Ⅰ类分子SLA-2基因（SLA-2*bm）,并通过分子生物学软件分析其分子特征。经克隆及序列测定分析,SLA-2*bm为1119bp,其中3～1097为ORF区,共编码364个氨基酸,分别在第125、188、227和283位置出现半胱氨酸残基,含有两对链内二硫键。氨基酸同源性分析显示SLA-2*bm与其它SLA-2、 SLA-3和SLA-1序列的同源率分别为88.4%～96.4%、88.3%～90.5%和87.7%～92.7%。系统进化树显示SLA-2*bm与其它SLA-2等位基因在遗传关系上相对独立,进化程度较低;各功能区分析,SLA-2*bm与人HLA-A2和小鼠H-2K分子结构相似,且保留了人HLA-A2基因的部分功能位点。结果表明,SLA-2*bm属于一个新的等位基因,巴马小型猪是保留原始基因特征的品种。     

我国巴马小型猪SLA-2基因克隆及分子特征

为研究我国巴马小型猪SLA-Ⅰ分子特征,设计引物克隆了SLA-Ⅰ类分子SLA-2基因（SLA-2*bm）,并通过分子生物学软件分析其分子特征。经克隆及序列测定分析,SLA-2*bm为1119bp,其中3～1097为ORF区,共编码364个氨基酸,分别在第125、188、227和283位置出现半胱氨酸残基,含有两对链内二硫键。氨基酸同源性分析显示SLA-2*bm与其它SLA-2、 SLA-3和SLA-1序列的同源率分别为88.4%～96.4%、88.3%～90.5%和87.7%～92.7%。系统进化树显示SLA-2*bm与其它SLA-2等位基因在遗传关系上相对独立,进化程度较低;各功能区分析,SLA-2*bm与人HLA-A2和小鼠H-2K分子结构相似,且保留了人HLA-A2基因的部分功能位点。结果表明,SLA-2*bm属于一个新的等位基因,巴马小型猪是保留原始基因特征的品种。     

我国巴马小型猪SLA-2基因克隆及分子特征

为研究我国巴马小型猪SLA-Ⅰ分子特征,设计引物克隆了SLA-Ⅰ类分子SLA-2基因(SLA-2bm),并通过分子生物学软件分析其分子特征。经克隆及序列测定分析,SLA-2bm为1119bp,其中3~1097为ORF区,共编码364个氨基酸,分别在第125、188、227和283位置出现半胱氨酸残基,含有两对链内二硫键。氨基酸同源性分析显示SLA-2bm与其它SLA-2、SLA-3和SLA-1序列的同源率分别为88.4%~96.4%、88.3%~90.5%和87.7%~92.7%。系统进化树显示SLA-2bm与其它SLA-2等位基因在遗传关系上相对独立,进化程度较低;各功能区分析,SLA-2bm与人HLA-A2和小鼠H-2K分子结构相似,且保留了人HLA-A2基因的部分功能位点。结果表明,SLA-2bm属于一个新的等位基因,巴马小型猪是保留原始基因特征的品种。     

CYP2D6 and CYP1A1 mutations in the Turkish population

Drugs and carcinogens are substrates of a group of metabolic enzymes including cytochrome p450 enzymes and gluthatione S-transferases. Many of the genes encoding these enzymes exhibit functional polymorphisms that contribute individual cancer susceptibility and drug response. Molecular studies based on these polymorphic enzymes also explain the aetiology of cancer and therapeutic management in clinics. We analysed the cytochrome p4501A1 (CYP1A1) and 2D6 (CYP2D6) variant genotype and allele frequencies by PCR-RFLP in Turkish individuals (n=140). The frequency of the CYP1A1*2A mutant allele was found to be 15.4%, and the CYP2D6*3 and *4 mutant allele (poor metabolizer) frequencies were 2.5% and 13.9%, respectively. This study presents the first results of CYP1A1 and CYP2D6 mutant allele distributions in the Turkish population and these data provide an understanding of epidemiological studies that correlate therapeutic approaches and aetiology of several types of malignancy in Turkish patients.