Differential gene expression of cultured human osteoblasts.

Human cells with osteogenic capacity were studied for differential gene expression. In the first part of the study we compared gene expression of marrow stroma cells (MSC) in comparison to matured osteoblasts cultured from trabecular bone (TBC) that were analyzed by RT-PCR for series of messages. High expression was detected for PTH-r, TGFb1 and biglycan in TBC compared to MSC's. The messages for c-MYC, IL-6, IL-11, M-CSF, osteonectin, and osteocalcin were expressed at the same level in the two populations of cells. In the second part of the study, we analyzed gene expression within the MSC derived from 25 donors (2.5-49 years old) with respect to donors' age and gender. Increased message levels for M-CSF and biglycan were measured in correlation with age of the donors. Gender differences did not affect the expression of cytokines studied (IL-6, IL-11, MCSF, TGFb1). We investigated the effect of Dexamethasone treatment on MSC and monitored an increased expression of IL-11, M-CSF, biglycan, and osteocalcin messages. This study employs primary cell systems (MSC and TBC) to illustrate differential gene expression by osteoblastic cells. The expression was correlated with maturation status of the cells with respect to differences between donors.     

Enhancement of bovine growth hormone gene expression by increasing the plasmid copy number

Effect of copy number on the expression of bovine growth hormone gene (bGH) was investigated using the copy number mutants such as pKBJ10, pBJ( tet)10, pUBJ10-1, and pUBJ10 plasmids. The cells harboring plasmids below 84 copies/cell did not produced detectable levels of bGH. When the ColE1 replicon was replaced with the mutated ColE1 replicon originated from pUC19 plasmid, the copy number was increased to about 300 copies/cell and bGH production was enhanced by 11.5% (pUBJ10-1) and 12.3% of total cell protein (pUBJ10). A large amount of mRNA caused by increment of copy number would be needed to overcome some inhibitory threshold and might be an important factor for regulating bGH expression.     

Effects of extremely low frequency electromagnetic field (EMF) on collagen type I mRNA expression and extracellular matrix synthesis of human osteoblastic cells

Human osteoblastic cells were grown in a three-dimensional (3-D) cell culture model and used to test the effects of a 20 Hz sinusoidal electromagnetic field (EMF; 6 mT and 113 mV/cm max) on collagen type I mRNA expression and extracellular matrix formation in comparison with the effects of growth factors. The cells were isolated from trabecular bone of a healthy individual (HO-197) and from a patient presenting with myositis ossificans (MO-192) and grown in a collagenous sponge-like substrate. Maximal enhancement of collagen type I expression after EMF treatment was 3.7-fold in HO-197 cells and 5.4-fold in MO-192 cells. Similar enhancement was found after transforming growth factor-β (TGF-β) and insulin-like growth factor-I (IGF-I) treatment. Combined treatment of the cells with EMF and the two growth factors TGF-β and IGF-I did not act synergistically. MO-192 cells produced an osteoblast-characteristic extracellular matrix containing collagen type I, alkaline phosphatase, and osteocalcin, together with collagen type III, TP-1, and TP-3, two epitopes of an osteoblastic differentiation marker. The data suggest that the effects of EMFs on osteoblastic differentiation are comparable to those of TGF-β and IGF-I. We conclude that EMF effects in the treatment of skeletal disorders and in orthopedic adjuvant therapy are mediated via enhancement of collagen type I mRNA expression, which may lead to extensive extracellular matrix synthesis. Bioelectromagnetics 19:222–231, 1998. © 1998 Wiley-Liss, Inc.     

In vitro osteogenesis from human skin-derived precursor cells

Embryonic tissue and organ development are initiated from three embryonic germ layers: ectoderm (skin and neuron), mesoderm (blood, bone, muscle, cartilage and fat) and endoderm (respiratory and digestive tract). In former times, it was believed that cell types in each germ layer are specific and do not cross from one to another throughout life. A new finding is that one tissue lineage can differentiate across to another tissue lineage, and this is termed transdifferentiation. We were interested in studying the transdifferentiation of skin-derived precursor cells (ectoderm layer) to osteoblastic cells (mesoderm layer). Human skin-derived precursor cells (hSKP) were isolated and induced into an osteoblastic lineage using osteogenic induction medium (alpha-MEM plus 10% fetal bovine serum supplemented with ascorbic acid, beta-glycerophosphate and dexamethasone). The specific characteristics of osteoblastic cells, including the expression of enzyme alkaline phosphatase, the deposition of mineral and the expression of osterix, bone sialoprotein and osteocalcin, were detected only from the inductive group. The results in our study show that SKP from human skin are a practically available source for osteogenesis. The samples are easily obtainable for autologous use with a high expansion capacity.     

Regulation of gonadotropin-releasing hormone (GnRH) gene expression in hypothalamic neuronal cells

Summary 1. Gonadotropin-releasing hormone (GnRH) is the hypothalamic releasing factor that controls pituitary gonadotropin subunit gene expression and indirectly gametogenesis and steroidogenesis from the gonad, which results in reproductive competence.2. GnRH is synthesized in only about 1000 neurons in the hypothalamus and released in an episodic fashion down the median eminence to regulate gonadotropin biosynthesis.3. Although much is known about the secretory dynamics of GnRH release, little is known about the pretranslational control of GnRH biosynthesis due to lack of appropriate model systems. The recent availability of immortalized neuronal cell lines that produce GnRH allows investigators for the first time to begin to dissect the factors that directly regulate GnRH gene expression.4. This article reviews the current state of knowledge concerning the mechanisms that direct tissue-specific and peptide hormone control of GnRH biosynthesis.     

Phenotypic changes and gene expression in human colon mucosal epithelial cells upon transfection of a SV40 DNA-GPT recombinant

Summary Phenotypic changes (increased longevity, decreased growth factor requirements, altered cell surface features, growth in semisolid agarose, and SV40 T antigen expression) suggesting in vitro transformation were displayed by human normal colon mucosal epithelial cells transfected with pSV3gpt, a pBR322 recombinant containing the SV40 “early” T antigen coding region and the dominant selectable marker bacterial gene, xanthine-guanine phosphoribosyltransferase. In contrast, control cultures which received neither DNA nor the recombinatn pSV2gpt (which is identical to pSV3gpt but lacks the SV40 T antigen region) were not phenotypically altered.     

Overexpression of BMP-2 modulates morphology, growth, and gene expression in osteoblastic cells

Bone morphogenetic proteins (BMP) play a pivotal role in growth and differentiation of osteoblastic lineage cells. BMPs are potent stimulators of bone formation in various animal models. To understand the mechanism of BMP action in bone cells, we have investigated the effects of overexpression of the BMP-2 gene on proliferation and differentiation of UMR-106 rat osteosarcoma cells. A stable UMR-106 cell line overexpressing the BMP-2 gene was established by transfection of cells using a mammalian expression vector harboring human BMP-2 cDNA followed by G418 selection. After introduction of the BMP-2 gene, UMR-106 cells appeared more spindle-shaped in morphology compared to the predominantly cuboidal appearance of the parental cells. Overexpression of BMP-2 markedly inhibited proliferation as measured by cell counting and [3H]thymidine incorporation assays. Extracellular matrix (ECM) derived from cells overexpressing BMP-2 exhibited a less supportive effect on proliferation of UMR cells than did ECM derived from parental cells. Furthermore, cell-cell communication through gap junctions was reduced more than 50% as determined by nondisruptive fluorescent dye transfer assays. Overexpression of BMP-2 significantly stimulated expression of osteocalcin and alkaline phosphatase genes, indicating its role in osteoblastic differentiation. There was little effect on osteopontin gene expression.     

转人生长激素鼠胚成纤维细胞的暂态表达方法的初步确立

探讨作为转基因克隆动物核供体的、不具备分泌人生长激素（hGH）功能的转hGH鼠胚胎成纤维细胞（tEF）体外表达人生长激素的简便的暂态表达方法。首先,转染,3d后筛选出G418,与无hGH分泌的人乳腺癌细胞株（MCF-7）在聚乙二醇（PEG）作用下融合,培养1～2d,放射免疫分析方法检测相同数量的MCF-7组、转染MCF-7组、tEF组以及融合细胞共4组培养液中hGH的表达。结果显示tEF组和MCF-7组均无hGH表达;二者的融合细胞组培养液中hGH表达量可高达0.84mIU/L。可见,不表达hGH的tEF与MCF-7融合形成的杂种细胞,可作为暂态表达系统检测转基因细胞的表达。     

人甲状旁腺激素的研究

人甲状旁腺激素(hPTH)是甲状旁腺分泌的多肽激素。它能与骨基质和肾细胞膜上专一性的受体相结合,将调节细胞中钙磷浓度的信号传导到膜内。hPTH活性片段在N端,其N端氨基酸序列与牛、猪PTH高度同源。hPTH及其活性片段在治疗骨及肌肉疾病方面有重要作用,重组hPTH已获成功。     

Effect of recombinant growth hormone on expression of growth hormone receptor,insulin-like growth factor mRNA and serum level of leptin in growing pigs

Sixteen Large White × Landrace castrated male pigs were allotted into treatment and control group. The treatment group was injected intramuscularly with recombinant porcine growth hormone (rpGH, 4 mg d⁻¹) and the control group with vehicle for 28 days. Animals were slaughtered 4 h after final injection for liver, longissimus dorsi (LD) muscle and blood sampling. Serum concentration of insulin-like growth factor 1 (IGF-I) and leptin were determined by RIA. The total RNA was extracted from tissues to measure the abundance of growth hormone receptor (GHR), IGF-I mRNA by RT-PCR with 18S rRNA internal standard. Results showed that rpGH enhanced the average daily weight gain by 26.1% (P < 0.05), the serum IGF-I concentration by 70.94% (P < 0.01), decreased serum leptin by 34.8% (P < 0.01). The relative abundance of GHR and IGF-I mRNA in liver were increased by 24.45% (P < 0.05) and 45.30% (P < 0.01), respectively, but no difference of GHR (P > 0.05) and IGF-I mRNA (P > 0.05) in LD between GH treated and control group was found. These results suggest that rpGH can up-regulate hepatic GHR and IGF-I gene expression and improve animal growth. However the effect of rpGH on GHR and IGF-I gene expression are tissue-specific.     

Effect of recombinant growth hormone on expression of growth hormone receptor, insulin-like growth factor mRNA and serum level of leptin in growing pigs

Growth hormone (GH) plays an important role in regulation of animal growth, metabolism and lactation[1]. Numerous studies have shown that exogenous somatotropin (ST) can increase average daily weight gain, improve feed efficiency, stimulate protein deposition and muscle growth and decrease lipid accretion rate[1]. The original somatomedin hypothesis suggested that the effect of GH on postnatal growth was mediated by insulin-like growth hormone factor 1 (IGF-I) which was thought to be deriv…     

High-yield production of authentic human growth hormone using a plant virus-based expression system

We describe here a high-yield transient expression system for the production of human growth hormone (hGH, or somatotropin) in transfected Nicotiana benthamiana leaves. The system is based on a recently described plant virus-based modular expression vector [Gleba, Y., Marillonnet, S. and Klimyuk, V. (2004) Engineering viral expression vectors for plants: the 'full virus' and the 'deconstructed virus' strategies. Curr. Opin. Plant Biol. 7, 182-188; Marillonnet, S., Giritch, A., Gils, M., Kandzia, R., Klimyuk, V. and Gleba, Y. (2004) In planta engineering of viral RNA replicons: efficient assembly by recombination of DNA modules delivered by Agrobacterium. Proc. Natl. Acad. Sci. USA, 101, 6852-6857], and represents a simple and fast alternative to stable transformation. By using various combinations of provector modules, hGH was produced in three compartments of the cell: the apoplast, the chloroplast and the cytosol. We found that targeting to the apoplast provided the highest amount of correctly processed and biologically active hGH, with a yield of up to 10% of total soluble protein or 1 mg per gram of fresh weight leaf biomass. These results indicate that the use of viral vectors for high-yield production of human therapeutic proteins in plants by transient expression provides an attractive alternative to production protocols using standard expression vectors in transgenic or transplastomic plants.     

活化素抑制大鼠垂体GH_3细胞中人生长激素基因启动子的活性

本研究旨在探讨活化素(activin)对大鼠垂体GH3细胞中人生长激素(hGH)基因启动子活性的影响及其可能的调节机制。采用荧光素酶报告基因方法。首先建立含hGH基因启动子(-484～+30bp)和荧光素酶融合基因的稳定转染GH3细胞株,然后加入活化素或同时加入活化素与相关信号转导途径的激动剂,通过检测细胞培养液和细胞裂解液中GH的含量,以及GH3细胞内荧光素酶的变化,反映活化素对GH分泌、合成和hGH基因启动子活性的影响。将含不同长度hGH基因启动子序列的荧光素酶表达质粒分别转染GH3细胞,观察它们对活化素的反应,寻找活化素影响hGH基因启动子活性的关键DNA序列。结果表明,活化素(5,50nmol/L)能抑制大鼠垂体GH3细胞中GH的分泌和合成,活化素(5,50nmol/L)还能够抑制GH3细胞中hGH基因启动子的活性,使之仅达对照组的77%和69%;在胞内信号转导激动剂中,丝裂原活化蛋白激酶激酶(MAPKK/MEK)特异性激动剂C6ceramide(1μmol/L)完全取消了活化素对hGH基因启动子活性的抑制作用;活化素发挥抑制作用所需要的hGH基因启动子关键序列位于-132～-66bp之间。上述研究表明,活化素能抑制大鼠垂体GH3中hGH基因启动子的活性,它可能是通过抑制细胞内依赖MAPK的信号转导途径来完成的,同时hGH启动子上-132～-66bp的序列在其中发挥重要的作用。     

榕江香猪生长激素基因的鉴定及功能分析

生长激素是调节动物生长的主要激素.本研究应用聚合酶链式反应技术从榕江香猪的基因组文库中分离出1.903kb生长激素基因.克隆的生长激素基因由五个外显子和四个内含子组成.榕江香猪生长激素基因的碱基序列与已知四个国外猪种和9个中国地方猪种之间的同源性为97%～99%,其间的差异主要集中在内含子2和4.通过限制性内切酶（DdeI,NarI,BsmNI）分析,鉴定出榕江香猪生长激素基因的五个多态性位点,分别位于5＇-侧翼区274（T/C）位点,外显子2的622（G/A）和631（G/A）位点,内含子2中的841（T/C）以及外显子4中的1 358（A/G）位点.同时,1 358（A/G）位的碱基改变导致榕江香猪生长激素成熟肽第108位异亮氨酸替换,三维结构分析表明,异亮氨酸的存在可能导致生长激素与受体间亲合力降低.     

外源生长激素基因在蓝太阳鱼中的整合、表达和遗传

通过基因重组, 将石斑鱼生长激素基因编码序列克隆到鲤鱼βactin基因启动子下游, 构建了“全鱼”生长激素基因表达载体pCAecGHc。采用显微注射法, 研制出转“全鱼”生长激素基因蓝太阳鱼。经过PCR、PCR Southern杂交、RT PCR等技术对转植基因在转基因蓝太阳鱼中的整合和表达情况进行了检测。结果表明:转植基因在两批次P0 转基因蓝太阳鱼中的整合率为5 .60%和12. 26%, 并在转基因鱼中得到了正确表达, 表现为嵌合性表达。对转基因蓝太阳实验鱼进行了对照养殖实验, 初步显示转基因蓝太阳鱼具有较快的生长表型效应, 比对照组生长速度快20%-40%左右。应用近交策略培育出了两个转基因蓝太阳鱼F1 品系, 检测表明, 转植基因在两个品系的整合率分别为22 .03%和40 .8%。结果表明: 转植基因通过性腺传递给了子代, 同时也证实转基因P0 代的生殖腺为转植基因的嵌合体。