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小鼠转基因的可诱导表达 总被引:2,自引:0,他引:2
转基因小鼠是研究基因表达调控及表达产物生物学效应的最佳体系之一。小鼠转基因可诱导表达系统的研究和应用为实现对转基因表达在时间和空间上进行严格调控。深入研究单一基因在生物体不同发育阶段。不同生理条件和不同病理状态下不同组织中的功能作用提供了有力的手段。并为进一步阐明人类生理机能和疾病的分子机制及基因治疗的研究开辟了新的前景。 相似文献
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利用组织特异性分子标志物启动子调控Cre重组酶,研制了6种在不同组织中特异性表达Cre重组酶的转基因小鼠.这些转基因小鼠的基因型鉴定均使用设计在Cre基因编码区的通用引物.为了特异性检测胰腺组织表达Cre重组酶的转基因小鼠,在大鼠胰岛素RIP启动子上和Cre基因上设计1对引物进行PCR扩增,并通过凝胶电泳进行分析.PCR结果显示,设计在Cre基因上的通用引物可以从6种不同组织特异性Cre重组酶转基因小鼠基因组DNA中扩增获得480 bp产物;利用本研究设计的特异性引物可以从胰腺组织表达Cre重组酶转基因小鼠基因组DNA中扩增200 bp的目的条带.这一结果表明,利用特异性引物进行PCR反应,可有效地将胰腺组织表达Cre重组酶转基因小鼠与其他多种组织的Cm重组酶转基因小鼠鉴别开来. 相似文献
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人前胰岛素原基因裸质粒DNA肌肉注射可显著降低链脲佐菌素诱发糖尿病小鼠的血糖水平 总被引:2,自引:0,他引:2
通过基因治疗的方法补充胰岛素已用于实验性治疗胰岛素依赖型糖尿病(IDDM)。本研究构建了含有重组人前胰岛素原基因的棵质粒DNA载体(pCMV—IN),将其肌肉注射入链脲佐菌素(STZ)诱发的糖尿病C57小鼠体内,并辅以电穿孔方法,以获得在体胰岛素转基因治疗。该质粒载体表达的胰岛素mRNA,可通过RT—PCR方法在转基因局部的骨骼肌组织中检测到。在接受pCMV—IN注射的糖尿病小鼠中,血浆胰岛素水平显著升高,达到了未注射STZ的正常对照小鼠的水平,且胰岛素的表达可持续至少35d。pCMV—IN质粒注射转基因治疗显著降低了糖尿病小鼠在第7至35d的血糖水平,其下降幅度约6mmol/L;转基因治疗也显著降低了严重糖尿病小鼠的死亡率,其第6周时的死亡率由100%降为37%。结果表明,直接肌肉注射含人前胰岛素原基因裸质粒可获得胰岛素的有效表达,显著降低糖尿病小鼠的血糖水平并降低严重糖尿病小鼠的死亡率。裸质粒注射胰岛素转基因治疗有望成为IDDM的一种有效治疗手段。 相似文献
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非病毒载体转基因法。如注射裸DNA或脂质体转染,不产生细胞毒性。但除了肌肉组织外其他组织的转导效率均不高。电脉冲可使细胞膜产生临时的微孔允许一些分子通过。因此应用此方法可将药物或基因转人动物组织。电穿孔常用于培养的细胞转基因,理论上,低强度、长脉冲。或高强度、短脉冲有利于电转导。选择适合的参数是电转导的关键。本实验比较了不同电压和脉冲时间对小鼠卵巢在体转入绿色荧光蛋白基因的效果.确定了最适的电转导参数。为卵巢疾病的药物、基因治疗和研究卵泡发育中的基因调控提供了实验手段。 相似文献
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ES细胞是建立基因打靶突变小鼠的必要条件 ,也可用于制备转基因动物 .基因敲除、精细突变和条件性基因打靶技术建立的基因打靶突变小鼠在人类遗传病机理研究、基因治疗和基因功能研究方面都有着重要作用 . 相似文献
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非病毒载体转基因法,如注射裸DNA或脂质体转染,不产生细胞毒性,但除了肌肉组织外其他组织的转导效率均不高。电脉冲可使细胞膜产生临时的微孔允许一些分子通过,因此应用此方法可将药物或基因转入动物组织。电穿孔常用于培养的细胞转基因,理论上,低强度、长脉冲,或高强度、短脉冲有利于电转导,选择适合的参数是电转导的关键。本实验比较了不同电压和脉冲时间对小鼠卵巢在体转入绿色荧光蛋白基因的效果,确定了最适的电转导参数,为卵巢疾病的药物、基因治疗和研究卵泡发育中的基因调控提供了实验手段。超声波是临床常用的诊断方法,对人体无害… 相似文献
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Efficient gene transfer is a key factor in gene therapy. Reducing the damage caused by gene transfer to muscle by electroporation is very important for its clinical application. Extensive investigation of optimal conditions for gene transfer by electroporation is required. The parameters used for electroporation, including plasmid concentration; injection volume; the plasmid dose of the injection; the concentration of saline media; the size of plasmid DNA; the age of the mice; the lag time between plasmid injection and electroporation; and the effect of repeated gene transfer by electroporation, were systematically investigated in the present study. The efficiencies of gene transfer by electroporation in normal and rodent models of diabetes were also evaluated. We found that electroporation used for non-viral gene transfer could be repeated in the same place in the muscle, but the expression efficiency was closely related to the muscle damage. Increasing pulse times could enhance the efficiency of gene transfer with a lower strength of electric field. It was better to use a higher plasmid concentration than to use a larger dose of plasmid and repeated injection to achieve a high level of transgene expression. Optimal conditions varied in different animal models, being milder for diabetic mice than for normal mice, and it was also shown that the conditions that worked well on these small rodents were not necessarily suitable for larger animals. Our results provide a comprehensive view of the factors that affect the efficiency of gene transfer into skeletal muscle by electroporation. 相似文献
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VEGF 164 gene transfer by electroporation improves diabetic sensory neuropathy in mice 总被引:1,自引:0,他引:1
BACKGROUND: Diabetic neuropathy is the most common cause of peripheral neuropathy and a serious complication of diabetes. Vascular endothelial growth factor (VEGF) stimulates angiogenesis and has neurotrophic and neuroprotective activities. To examine the efficiency of VEGF 164 electro-gene therapy for neuropathy, intramuscular VEGF 164 gene transfer by electroporation was performed to treat sensory neuropathy in diabetic mice. METHODS: VEGF 164 was overexpressed in the tibial anterior (TA) muscles of streptozotocin-induced diabetic mice with hypoalgesia, using a VEGF 164 plasmid injection with electroporation. From 2 weeks after electro-gene transfer, the nociceptive threshold was measured weekly using the paw-pressure test. The TA muscles, sciatic nerve, liver and spleen were histochemically examined at 4 weeks after electro-gene transfer. RESULTS: Two weeks after electro-gene transfer into the bilateral TA muscles, the elevated nociceptive threshold was decreased to a normal level in all treated mice. Improvement of the hypoalgesia continued for 14 weeks. When the VEGF 164 plasmid was injected with electroporation into a unilateral TA muscle, recovery from hypoalgesia was observed in not only the ipsilateral hindpaw, but also the contralateral one, suggesting that VEGF circulates in the blood. No increase in the number of endoneurial vessels in the sciatic nerve was found in the VEGF 164 plasmid-electroporated mice. CONCLUSIONS: These findings suggest that VEGF 164 electro-gene therapy completely recovered the sensory deficits, i.e. hypoalgesia, in the diabetic mice through mechanisms other than angiogenesis in the endoneurium of the peripheral nerve, and may be useful for treatment for diabetic sensory neuropathy in human subjects. 相似文献
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S Nagamatsu Y Nakamichi M Ohara-Imaizumi S Ozawa H Katahira T Watanabe H Ishida 《FEBS letters》2001,509(1):106-110
We investigated whether adenovirus-mediated preproinsulin gene transfer into insulin target tissues (adipocytes) ameliorates hyperglycemia in diabetic mice. KKA(y) mice, a genetically obese type 2 diabetic animal model, were treated with a single subcutaneous injection of recombinant adenovirus, Adex1CA-human preproinsulin (Adex1CA-pchi), into the epididymal fat pads. pchi mRNA was expressed only in adipose tissue in which mature insulin was produced. Three days after virus injection these mice showed a marked decrease of blood glucose levels (from about 400 to 200 mg/dl), and an intraperitoneal glucose tolerance test revealed the markedly improved glucose tolerance. There was no significant difference in serum insulin levels between control and recombinant adenovirus-treated KKA(y) mice. The normalized glucose levels in diabetic mice were maintained for at least 2 weeks after the virus injection. This strategy could provide a novel and, most importantly, a simple and convenient gene therapy for obese type 2 diabetes patients. 相似文献
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sTNFR-IgGFc融合基因在内皮细胞中的表达及其对小鼠关节炎模型的基因治疗研究 总被引:4,自引:1,他引:3
可溶性肿瘤坏死因子受体(sTNFR)可以拮抗肿瘤坏死因子的活性,因此已被用来治疗与TNF相关的炎性疾病。本研究将sTNFR与IgGFc片段的融合蛋白基因克隆到真核表达载体pStar上,转染到人的内皮细胞中,获得了表达。表达的sTNFR-IgGFc能够拮抗TNFα对L929细胞的细胞毒活性。将该质粒DNA与脂质体混合,经尾静脉注射到Ⅱ型胶原诱导的关节炎小鼠体内后,应用RT-PCR在鼠的肝脏检测到了sTNFR-IgGFc的表达,并显著地改善了治疗组小鼠关节炎症状和病理反应。这表明抗TNF基因治疗有可能作为治疗类风湿性关节炎的新的途径。 相似文献
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利用精子介导的基因转移(Sperm-mediated gene transfer,SMGT)方法,将sFat-1 DNA片段直接和小鼠精子孵育,再通过体外受精、胚胎移植等技术建立sFat-1转基因小鼠模型。经PCR检测,16只后代中发现2只阳性个体,Southern blot进一步鉴定的结果显示有2只后代整合了sFat-1基因,成功建立sFat-1转基因小鼠模型,转基因率为12.5%。本研究运用精子介导的转基因方法将sFat-1基因整合到小鼠基因组中,为进一步研究sFat-1的生物学功能提供了实验动物模型。 相似文献
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Friso A Tomanin R Zanetti A Mennuni C Calvaruso F La Monica N Marin O Zacchello F Scarpa M 《Biochimica et biophysica acta》2008,1782(10):574-580
Mucopolysaccharidosis type II (MPSII) is an inherited disorder due to a deficiency of the lysosomal enzyme iduronate-2-sulfatase (IDS). The disease is characterized by a considerable deposition of heparan- and dermatan-sulfate, causing a general impairment of physiological functions. Most of the therapeutic protocols proposed so far are mainly based upon enzyme replacement therapy which is very expensive. There is a requirement for an alternative approach, and to this aim, we evaluated the feasibility of muscle electro gene transfer (EGT) performed in the IDS-knockout (IDS-ko) mouse model. EGT is a highly efficient method of delivering exogenous molecules into different tissues. More recently, pre-treatment with bovine hyaluronidase has shown to further improve transfection efficiency of muscle EGT. We here show that, by applying such procedure, IDS was very efficiently produced inside the muscle. However, no induced IDS activity was measured in the IDS-ko mice plasma, in contrast to matched healthy controls. In the same samples, an anticipated and rapidly increasing immune response against the recombinant protein was observed in the IDS-ko vs control mice, although reaching the same levels at 5 weeks post-injection. Additional experiments performed on healthy mice showed a significant contribution of hyaluronidase pre-treatment in increasing the immune response. 相似文献
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目的研究阳离子脂质体介导mGM-csf和mFlt-kdr3基因治疗以及2个基因联合治疗对小鼠B16-F10黑色素瘤肺转移以及实体瘤的生长抑制作用。方法通过尾静脉注射法和皮下注射法分别将10~5个以及10~6个对数生长期黑色素瘤细胞注入BALB/c小鼠体内,构建小鼠肺转移模型和腋下实体瘤模型。将2组模型小鼠分别分成5组:mFlt-kdr3治疗组、mGM-csf治疗组、联合治疗组(1次mFlt-kdr3,2次mGM-csf)、H1299脂质体质粒对照组和生理盐水对照组。肺转移模型小鼠建模3周后,尾静脉给药治疗,每次给药80μL,每次间隔1 d,共3次。完成后3 d,解剖取出小鼠肺组织并对肿瘤灶进行计数、苏木精-伊红染色。实体瘤模型小鼠在建模1周后开始瘤体穿刺给药,每次给药25μL,每次间隔1 d,共9次,每次给药前用游标卡尺测量瘤体的长、短径。结果肺转移治疗实验中,治疗组平均肿瘤个数显著少于对照组(P<0.05),且联合治疗组肿瘤个数最少,并且肺部结构完整,基本未见明显的肿瘤灶,可以看到明显的肺泡结构。实体瘤模型实验中,治疗组瘤体平均体积显著小于对照组(P<0.05),且在观察的时间内联合治疗组瘤体平均体积呈现明显的下降趋势,治疗组的疗效价值为联合治疗组>mFlt-kdr3治疗组>mGM-csf治疗组。结论GM-csf和Flt-kdr3基因药物对黑色素瘤具有协同治疗效用,可以明显抑制肺部肿瘤灶的形成和实体瘤的生长。 相似文献
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消化道途径转基因过程方便、快捷、易适应,可为基因治疗提供全新的模式。为了研究人 生长激素(bGH)基因的经消化道途径转基因过程,实验首先应用ECHO克隆系统。在供载体 pUni-hGH和宿主载体pcDNA4/TO-E的基础上,构建出hGH的哺乳动物表达载体pcDNA4-hGH;然 后结合酿酒酵母表达载体pESC-URA,构建出hGH的酵母-哺乳动物穿梭栽体pESC-CMV-hGH,测 序鉴定后转化酿酒酵母。用阳性重组酵母对小鼠进行灌胃免疫实验,间接ELISA方法在实验组 小鼠的血清中检测到抗hGH抗体的存在。结果证实hGH基因可通过消化道途径转进小鼠体细 胞并进行表达,初步证明了hGH的消化道基因治疗的可行性。 相似文献