Pten Regulates Development and Lactation in the Mammary Glands of Dairy Cows

Pten is a tumor suppressor gene regulating many cellular processes, including growth, adhesion, and apoptosis. In the aim of investigating the role of Pten during mammary gland development and lactation of dairy cows, we analyzed Pten expression levels in the mammary glands of dairy cows by using western blotting, immunohistochemistry, and quantitative polymerase chain reaction (qPCR) assays. Dairy cow mammary epithelial cells (DCMECs) were used to study the function of Pten in vitro. We determined concentrations of β-casein, triglyceride, and lactose in the culture medium following Pten overexpression and siRNA inhibition. To determine whether Pten affected DCMEC viability and proliferation, cells were analyzed by CASY-TT and flow cytometry. Genes involved in lactation-related signaling pathways were detected. Pten expression was also assessed by adding prolactin and glucose to cell cultures. When Pten was overexpressed, proliferation of DCMECs and concentrations for β-casein, triglyceride, and lactose were significantly decreased. Overexpression of Pten down-regulated expression of MAPK, CYCLIN D1, AKT, MTOR, S6K1, STAT5, SREBP1, PPARγ, PRLR, and GLUT1, but up-regulated 4EBP1 in DCMECs. The Pten siRNA inhibition experiments revealed results that opposed those from the gene overexpression experiments. Introduction of prolactin (PRL) increased secretion of β-casein, triglyceride, and lactose, but decreased Pten expression levels. Introduction of glucose also increased β-casein and triglyceride concentrations, but did not significantly alter Pten expression levels. The Pten mRNA and protein expression levels were decreased 0.3- and 0.4-fold in mammary glands of lactating cows producing high quality milk (milk protein >3.0%, milk fat >3.5%), compared with those cows producing low quality milk (milk protein <3.0%, milk fat <3.5%). In conclusion, Pten functions as an inhibitor during mammary gland development and lactation in dairy cows. It can down-regulate DCMECs secretion of β-casein, triglyceride, and lactose, and plays a critical role in lactation related signaling pathways.     

Construction of an expression plasmid (vector) encoding Brucella melitensis outer membrane protein,a candidate for DNA vaccine

Background:

DNA vaccination with plasmid encoding bacterial, viral, and parasitic immunogens has been shown to be an attractive method to induce efficient immune responses. Bacteria of the genus Brucella are facultative intracellular pathogens for which new and efficient vaccines are needed.

Methods:

To evaluate the use of a DNA immunization strategy for protection against brucellosis, a plasmid containing the DNA encoding the Brucella melitensis (B. melitensis) 31 kDa outer membrane protein, as a potent immunogenic target, was constructed.

Results:

The constructed plasmid, pcDNA3.1+omp31, was injected intramuscularly into mice and the expression of omp31 RNA was assessed by RT-PCR. The integrity of the pcDNA3.1+omp31 construct was confirmed with restriction analysis and sequencing. Omp31 mRNA expression was verified by RT-PCR.

Conclusion:

Our results indicate that the pcDNA3.1+omp31 eukaryotic expression vector expresses omp31 mRNA and could be useful as a vaccine candidate.Key Words: Brucella melitensis, omp31, DNA Vaccine, pcDNA3.1     

Comparison of immune responses against FMD by a DNA vaccine encoding the FMDV/O/IRN/2007 VP1 gene and the conventional inactivated vaccine in an animal model

Foot-and-mouth disease virus (FMDV) is highly contagious and responsible for huge outbreaks among cloven hoofed animals. The aim of the present study is to evaluate a plasmid DNA immunization system that expresses the FMDV/O/IRN/2007 VP1 gene and compare it with the conventional inactivated vaccine in an animal model. The VP1 gene was sub-cloned into the unique Kpn I and BamH I cloning sites of the pcDNA3.1+ and pEGFP-N1 vectors to construct the VP₁ gene cassettes. The transfected BHKT7 cells with sub-cloned pEGFP-N1-VP1 vector expressed GFP-VP1 fusion protein and displayed more green fluorescence spots than the transfected BHKT7 cells with pEGFP-N1 vector, which solely expressed the GFP protein. Six mice groups were respectively immunized by the sub-cloned pcDNA3.1⁺-VP1 gene cassette as the DNA vaccine, DNA vaccine and PCMV-SPORT-GMCSF vector (as molecular adjuvant) together, conventional vaccine, PBS (as negative control), pcDNA3.1⁺ vector (as control group) and PCMV-SPORT vector that contained the GMCSF gene (as control group). Significant neutralizing antibody responses were induced in the mice which were immunized using plasmid vectors expressing the VP1 and GMCSF genes together, the DNA vaccine alone and the conventional inactivated vaccine (P<0.05). Co-administration of DNA vaccine and GMCSF gene improved neutralizing antibody response in comparison with administration of the DNA vaccine alone, but this response was the most for the conventional vaccine group. However, induction of humeral immunity response in the conventional vaccine group was more protective than for the DNA vaccine, but T-cell proliferation and IFN-γ concentration were the most in DNA vaccine with the GMCSF gene. Therefore the group that was vaccinated by DNA vaccine with the GMCSF gene, showed protective neutralizing antibody response and the most Th1 cellular immunity.     

不同泌乳期奶山羊乳腺OPN基因表达及其对MCF-7细胞生长的影响

为了研究骨桥蛋白基因(OPN)在奶山羊(Capra hircus)乳腺组织不同泌乳期的变化规律及其功能, 采用SYBR Green染料建立该基因的实时荧光定量PCR(QPCR)分析方法, 以b-actin基因为内参, 对该基因在乳腺组织泌乳28 d、60 d、100 d、190 d、270 d和330 d的mRNA表达水平进行检测; 同时将该基因片段克隆到真核表达载体pcDNA3.1, 构建重组质粒pcDNA3.1-OPN, 所获重组质粒经过酶切和测序鉴定后, 转染MCF-7细胞, 采用MTT(四唑盐, 3-(4, 5)-dimethylthiahiazo (-z-y1)-3, 5-di-phenytetrazoliumromid)法检测OPN对MCF-7细胞的增殖差异, 结果表明: OPN基因在泌乳初期(28 d)和泌乳后期(190 d)表达水平较高, 干奶期最低, 其表达水平总体呈现高-低-高-低的变化模式。MTT实验表明转染OPN基因的MCF-7细胞较未转染基因组细胞的生长具有显著差异(P<0.05), 说明OPN的表达具有促进MCF-7细胞生长的作用。     

磷酸钙纳米介导自杀基因载体的构建及其应用研究

构建由CEA启动子、CMV增强子驱动的融合自杀基因PCDNA3.1(-)CVyCDglyTK表达载体和分别由CEA启动子和巨细胞病毒(CMV)增强子驱动的融合自杀基因PCDNA3.1(-)CEAyCDglyTK、PCDNA3.1(-)CMVyCDglyTK表达栽体.以磷酸钙纳米为载体分别转染CEA阳性的人结肠癌细胞株LOVO细胞和CEA阴性的HeLa细胞,Lovo细胞在感染以上3种质粒表达栽体后均有yCDglyTK mRNA表达,且对5-FC的敏感性明显增强:HeLa细胞在纳米PCDNA3.1(-)CMVyCDglyTK复合物感染后有yCDglyTK mRNA表达,对5-FC的敏感性增强,而在另外两种复合物感染后则没有yCDglyTK mRNA表达,5-Fc对其亦无杀伤作用,结果表明靶向性基因治疗栽体能使融合自杀基因在CEA阳性细胞中专一性表达,达到靶向治疗肿瘤的目的.     

Vaccination of chickens with DNA vaccine encoding Eimeria acervulina 3-1E and chicken IL-15 offers protection against homologous challenge

Eimeria acervulina 3-1E antigen gene and mature chicken interleukin 15 (mChIL-15) gene were cloned into expression vector pcDNA3.1(+) in different forms, produced DNA vaccine pcDNA3.1-3-1E, and pcDNA3.1-3-1E-linker-mChIL-15 co-expressing E. acervulina 3-1E gene and mChIL-15 gene, respectively. The expression of objective gene in vitro was detected by indirect fluorescent antibody technique and immunohistochemistry. The two DNA vaccines were administered by intramuscular leg injection. An animal challenge experiment was carried out to evaluate the immune protective efficacy of the vaccines. The results indicated that DNA vaccines were successfully constructed and the expression of objective gene could be detected in vitro. The animal experimental results showed that both DNA vaccines could provide partial protection against homologous challenge in chickens. The chimeric DNA vaccine, pcDNA3.1-3-1E-linker-mChIL-15, could significantly increase oocyst decrease ratio, reduce the average lesion score in the duodenum, improve body weight gain, and increase anti-coccidial index (ACI) compared to the DNA vaccine pcDNA3.1-3-1E. Taken together, these results demonstrate ChIL-15 enhance the immunogenicity of 3-1E DNA vaccine, and co-expression of cytokine and optimized surface antigen of Eimeria may be a promising method to enhance immunogenicity of DNA vaccines in poultry.     

MAGE-3 DNA疫苗的构建及其免疫效果的观察

通过RT PCR方法扩增MAGE 3cDNA ,以pcDNA3 1+为载体 ,构建重组表达质粒pcDNA3 1 MAGE 3。重组质粒用脂质体转染鼠B16细胞 ,经RT PCR、细胞免疫染色及免疫印迹法鉴定转化细胞中MAGE 3的表达。以 10 0 μg质粒剂量肌肉注射接种小鼠 ,间隔 10天 ,共 3次 ,以空载体和PBS为对照。结果 ,重组质粒免疫的小鼠 ,其脾淋巴细胞对MAGE 3阳性靶细胞的杀伤活性为 51 0 8± 7 41% ,与空载体组 (8 44± 1 89% )及PBS组 (5 76± 1 75% )相比 ,差异有显著性 (P <0 0 1) ,而对MAGE 3阴性靶细胞的杀伤活性分别为 8 2 1± 1 65% ,7 68± 1 56%和 5 13±1 42 % ,其差异无显著性 ;MAGE 3DNA疫苗组免疫血清 1∶15稀释时能检测到抗MAGE 3抗体 ,脾细胞培养上清中Th1类细胞因子IFN γ、IL 2水平明显升高 ,外周血中CD4+、CD8+T细胞也提高 ,小鼠肿瘤的生长速度明显减慢 ,与对照组相比 ,差异显著 (P <0 0 1)。说明MAGE 3重组质粒免疫小鼠可以诱导小鼠产生特异性的体液和细胞免疫应答     

Molecular cloning and expression of glycoprotein IIb and IIIa

Objective To amplify the cDNA genes of GPIIb, GPIIIa, then construct the eukaryotic expression carriers of GPIIb and GPIIIa respectively, finally establish CHO cell lines stably expressing GPIIb and GPIIIa. Methods Human erythroleukemia (HEL) cells were cultured for total RNA extraction. RT-PCR was accomplished using the specific GPIIb, GPIIIa primers designed according to Genbank by Primer 5, then each of cDNAs were obtained. The expressive vector pcDNA3.1(+) and PCR products were cut by NheI and HindIII, and then the fragements were directly cloned to pcDNA3.1(+) because of having the same adhesive ends. Then pcDNA3.1(+)IIb and pcDNA3.1(+)IIIa were transfected into CHO cells respectively by Lipofectamine 2000. The cell lines expressing GPIIb, GPIIIa were screened by G418. Then the Chinese hamster ovary (CHO) cell lines were examed through flow cytometry (FCM) and RT-PCR to detect the expression of GPIIb, GPIIIa in CHO cells. Results The cDNAs of GPIIb and GPIIIa were amplidied by RT-PCR, and the pcDNA3.1(+)IIb and pcDNA3.1(+)IIIa were constructed respectively. By sequencing and double digestion, pcDNA3.1(+)IIb and pcDNA3.1(+)IIIa were all correct. Expression of GPIIb and GPIIIa were detected on transfected CHO cells by FCM and RT-PCR. Conclusions (1) Succeeded in constructing pcDNA3.1(+)IIb, pcDNA3.1(+)IIIa. (2) Succeeded in getting the cell lines expressing GPIIb, GPIIIa.     

Transcriptional regulation of acetyl-CoA carboxylase α isoforms in dairy ewes during conjugated linoleic acid induced milk fat depression

Feeding trans-10, cis-12 CLA to lactating ewes reduces milk fat by down-regulating expression of enzymes involved in lipid synthesis in the mammary gland and increases adipose tissue lipogenesis. Acetyl-CoA carboxylase α (ACC-α) is a key regulated enzyme in de novo fatty acid synthesis and is decreased by CLA. In the ovine, the ACC-α gene is expressed from three tissue-specific promoters (PI, PII and PIII). This study evaluated promoter-specific ACC-α expression in mammary and adipose tissue of lactating cross-bred Lacaune/Texel ewes during milk fat depression induced by rumen-unprotected trans-10, cis-12 CLA supplement. In all, 12 ewes arranged in a completely randomized design were fed during early, mid and late lactation one of the following treatments for 14 days: Control (forage+0.9 kg of concentrate on a dry matter basis) and CLA (forage+0.9 kg of concentrate+27 g/day of CLA (29.9% trans-10, cis-12)). Mammary gland and adipose tissue biopsies were taken on day 14 for gene expression analysis by real-time PCR. Milk fat yield and concentration were reduced with CLA supplementation by 27%, 21% and 35% and 28%, 26% and 42% during early, mid and late lactation, respectively. Overall, our results suggest that trans-10, cis-12 CLA down-regulates mammary ACC-α gene expression by decreasing expression from PII and PIII in mammary gland and up-regulates adipose ACC-α gene expression by increasing expression from PI.     

真核表达载体pcDNA3.1(-)+KG的构建及在HeLa细胞中的表达

为了将绿色荧光蛋白(green fluorescent protein,GFP)引入细胞核内,采用两轮PCR方法从原先克隆在pcD-NA3.1(-)+GFP载体中将GFP编码序列扩增出来并引入Kozak序列和核定位信号,使用常规酶切和连接方法将其重组至pUCm-T克隆载体中,再将目的片段重组至pcDNA3.1(-)中,对阳性克隆进行酶切、PCR和测序鉴定后,构建了带有Kozak序列和核定位信号的绿色荧光蛋白(GFP)真核表达载体pcDNA3.1(-)+KG。真核表达载体pcDNA3.1(-)+KG被转染试剂Su-perfect转染至HeLa细胞中,绿色荧光蛋白基因在HeLa细胞中得到表达而且在细胞核中观察到绿色荧光。该研究以绿色荧光蛋白为标记初步建立了活体观察真核细胞核动态变化的研究体系。