首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 187 毫秒
1.
将人胰岛素原突变体(A4Glu→Leu)基因重组到pBV220表达载体上,在E.coli系统中得到高效表达,表达产物经SephadexG-50柱层析分离以及胰蛋白酶和羧肽酶B的酶促转化等步骤,可得到纯的人胰岛素突变体(A4Glu→Leu),其氨基酸组成与预期值相符,其受体结合活性及生物活性与标准猪胰岛素的基本相同.  相似文献   

2.
目的:构建雌激素受体α(ERα)T224A和S559A磷酸化位点突变体载体,在HEK293T细胞中检测其表达及突变体生物活性的改变。方法:以pc DNA3-Flag-ERα为模板,通过重组PCR技术扩增目的基因片段并突变碱基,插入pc DNA3-Flag载体;将构建的质粒转染HEK293T细胞进行瞬时表达,通过Western印迹检测融合蛋白的表达,采用萤光素酶报告基因方法检测ERα突变体的活性改变。结果:T224A和S559A磷酸化位点突变体在HEK293T细胞中得到表达,相对分子质量为66×103。在无雌激素(E2)时,野生型ERα及T224A和S559A突变体的转录活性分别为空载体的1.94、1.49和1.84倍;在雌激素存在时,野生型ERα活性增强了1.57倍,T224A和S559A突变体活性分别增强了0.54和0.61倍。结论:224位Thr磷酸化修饰对ERα的活性起重要作用,且2个磷酸化位点突变体受雌激素调控减弱。  相似文献   

3.
我们已经建造了带有两个不同的人生长激素(hGH)基因的SV40重组体。用这些重组体感染的猴肾细胞能合成、加工并分泌人生长激素。有着与克隆的人生长激素互补DNA(eDNA)同样编码序列的基因1,共产物从几个标准来看,与垂体hGH没有什么区别。预定编码一个变异蛋白质的基因2,其产物比垂体hGH的免疫反应活性要小,但能有效地与hGH细胞表面受体结合。这些结果表明,基因2有可能表达而产生我们以前未辨别的hGH形式。这些结果显示了在真核细胞中,用基因转移的方法产生成熟的激素是可能的。这些结果也证明了SV40—猴细胞系统可以用于生产和鉴定动物细胞分泌的蛋白质。  相似文献   

4.
如果六月第一周公布的结果被确认的话,帮助缓解一些老化作用可能成为人生长激素(hGH)一种主要的新用途.曾经有人怀疑老年人中生长激素分泌的减少在降低瘦体重增加脂肪组织量和皮肤变薄中起很大作用.此新研究结果表明,服用生长激素可逆转上述过程. 科学家认为从30岁左右开始,多数个体中垂体生长激素的分泌趋于减少.由于没有实测hGH含量,因而不能确定上述假说,但代替实测hGH,通过测定胞浆的胰岛素样生长因子I(IGF-Ⅰ,或促生长因子C)浓度间接测定了hGH,IGF-Ⅰ由肝脏及其它与  相似文献   

5.
通过显微注射技术,将小鼠重金属螯合蛋白(MT-1)基因启动顺序与人生长激素基因顺序的重组体pMThGH注入鲤鱼(Cyprinus carpio)的受精卵内,由此发育的转基因鱼及其后代F1和F2均显示出快速生长效应。去垂体后,转基因鲤鱼F2持续生长,而非转基因鲤鱼和鲫鱼(Carassius auratus)的生长停止。给去垂体的鲫鱼腹腔注射生物合成的人生长激素(hGH),可恢复其生长。实验结果表明,转基因鱼体内表达和体外生物合成的hGH均能代偿鲤鱼和鲫鱼的内源生长激素并刺激去垂体鱼的生长。  相似文献   

6.
构建人胰岛素原突变体GIRR(A2 1Asn→Gly,B1 7Leu→Ile ,B31Arg ,B32Arg)基因的原核融合表达载体并进行表达和纯化 ,进一步对其性质进行研究。将人胰岛素原突变体基因重组到pTXB1融合表达载体上 ,在E .coliBL2 1 (DE3)中得到高效表达。表达产物经几丁质亲和柱层析分离以及胰蛋白酶和羧肽酶B的酶促转化等步骤 ,得到纯的人胰岛素突变体GIRR ,其纯度经HPLC鉴定达到 95 % ,氨基酸组成和设计相符 ,其受体结合活性是猪胰岛素的 1 0 5 % ,生物活性为 2 6.8IU/mg。其血浆半衰期为 2 0分钟 ,比标准猪胰岛素提高 3倍多。结果提示本突变体具有更长的半衰期 ,为长效胰岛素的制备提供了新的思路。  相似文献   

7.
为研究重组单链胰岛素的生物活性与连接肽之间的关系,用基因定点突变的方法分别以二肽A-K,七肽A-A-A-A-A-A-K和十二肽A-A-A-A-A-A-A-A-A-A-A-K连接胰岛素的B30和A1,得到3个单链胰岛素分子PIP,[A]5PIP和[A]10PIP.它们的受体结合能力分别为胰岛素的0.14%, 14.3% 和11.1%, 体内生物活性与受体结合能力一致,而它们的促生长活性分别为胰岛素的17%,116.3%和38%.结果表明:(ⅰ)单链胰岛素也具有胰岛素的促代谢和促生长功能;(ⅱ)单链胰岛素与胰岛素受体的结合能力与连接肽的长度和氨基酸组成密切相关, 其受体结合能力随连接肽的改变,可由无到100%,进一步说明胰岛素与其受体结合时,B链C端远离A链N端是必需的;(ⅲ)单链胰岛素的促细胞生长能力也与连接肽长度和组成密切相关,且比其自身的促代谢能力强.  相似文献   

8.
生长激素(GH)对不同组织中的氨基酸转运和蛋白质合成有急性兴奋作用,但这些效应是生长激素的促生长作用还是独立的胰岛素样的作用,至令没有得到证实。与天然的人生长激素(22K hGH)相比,分子量为20000道尔顿人生长激素的变异体(20K hGH)的促生长活性与胰岛素样活性的比值很高,因此,它可作为探讨上述问题的工具。作者用雌性去垂体大鼠离体的膈肌进行实验,比较天然22K hGH 与变异体20K hGH 刺激氨基酸转运与蛋白质合成的相对活性。将一对完整的偏侧膈在不同浓度的22K hGH 或20K hGH存在或缺如的情况下预先孵育1h,在孵育的最后1h 内,在孵育液中加~(14)C 标记的3-氧-甲基葡萄糖,以测定 hGH 在糖转运中的胰岛素样活性,同肘亦加入~3H 标记的α-氨基异丁酸或~3H 标记的苯丙氨酸,分别  相似文献   

9.
构建能表达人生长激素(hGH)的pLentivirus6/V5-hGH载体,并实现hGH基因在骨骼肌成肌细胞中大量、长期和稳定的表达。体外培养SD鼠骨骼肌成肌细胞,并通过免疫组织化学方法鉴定所得细胞、用台酚兰染色确定培养细胞的活性并绘制生长曲线。将目的基因hGH亚克隆到真核细胞表达载体pLenti6/V5-D-TOPO载体上,构建重组质粒pLentivirus6/V5-hGH。将pLenti6/V5-hGH及阳性对照质粒pLenti6/V5-EGFP分别用Lipofectamin2000介导转染体外培养的SD乳鼠骨骼肌成肌细胞。在激光共聚焦扫描显微镜下计数,确定阳性对照质粒的转染数,从而估计该基因的转染效率。加入筛选试剂以获得稳定表达异源生长激素(GH)的成肌细胞。收集转染及筛选后的细胞培养基,用放射免疫分析法(RIA)检测重组人生长激素(rhGH)的表达水平。聚合酶链式反应法(PCR)及DNA测序显示hGH基因成功地插入到pLenti6/V5-D-TOPO载体中;阳性对照质粒转染细胞24h后,在激光共聚焦显微镜下观察,其转染效率达40%以上。检测收集的上清,与对照组相比,有极显著差异(P<0.01),观察至第8周,rhGH仍持续稳定表达。通过检测培养的chang-liver肝细胞上清中胰岛素样生长因子-1(IGF-1)的水平,验证了rhGH的生物学活性。实验通过培养高纯度的成肌细胞,构建了能在真核细胞内表达hGH的重组质粒pLenti6/V5-hGH,实现了hGH基因在骨骼肌成肌细胞中大量、长期和稳定的表达,并且获得的rhGH具有较强的促进肝细胞分泌IGF-1的能力。  相似文献   

10.
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。  相似文献   

11.
The natural 20 kDa-variant of human growth hormone (hGH) binds with high affinity to IM-9 human lymphocyte receptors, in agreement with its potency in biological assays for growth promoting and lactogenic activities. In contrast, 20 kDa-hGH has only 3% of the potency of 22 kDa-hGH in binding to the receptors of normal and hypophysectomized rat adipocytes. In agreement with the binding potency, 20 kDa-hGH is only 3% as potent as 22 kDa-hGH in stimulating lipogenesis in normal rat adipocytes preincubated for a few hours in hGH-free medium. The 20 kDa-hGH is also much weaker than 22 kDa-hGH in stimulating lipogenesis in adipocytes from hypophysectomized rats. These data strongly support the concept that the rat adipocyte receptor, which mediates the insulin-like effects of growth hormone, is different from the receptor found on human IM-9 lymphocytes. Preincubation of rat adipocytes with hGH induces a refractoriness to subsequent activation of lipogenesis by hGH but does not abolish the response to insulin, while preincubation with insulin slightly potentiates the hGH response and does not change the insulin response. Additivity studies and a detailed comparison of the lipogenic effects of insulin and hGH suggest that hGH shares only a subset of the metabolic pathways activated by insulin.  相似文献   

12.
The amino-terminal portion of human growth hormone, residues 1-43 (hGH1-43), has insulin-potentiating action, while a hyperglycemic pituitary peptide (HP), which co-purifies with human growth hormone (hGH), is antagonistic to the action of insulin. The effects of hGH, hGH1-43, and HP on glucose metabolism were assessed in young (4-5 weeks) and adult (6-8 months) hypophysectomized yellow Avy/A mice which lacked any interfering endogenous pituitary hormones, and compared with age-matched intact obese yellow Avy/A and lean agouti A/a mice. Treatment with hGH1-43 or HP did not promote body growth in hypophysectomized yellow mice; but after 2 weeks of treatment with hGH, there was a significant increase in body weight (P less than 0.05). Treatment with HP raised blood glucose and lowered insulin concentrations in obese yellow mice, but not in agouti or hypophysectomized yellow mice. The severely impaired glucose tolerance of the hypophysectomized yellow mice was improved by acute (60 min) and chronic (3 days) treatment with hGH1-43 as well as by 2 weeks of treatment with hGH; in contrast, HP had no effect. Glucose oxidation in adipose tissue from obese yellow mice was low and showed essentially no response to stimulation by insulin at doses lower than 1000 microunits/ml. Basal glucose oxidation rates in adipose tissue taken from agouti and hypophysectomized yellow mice were significantly higher (P less than 0.001) than those in tissue from obese yellow mice, and the rates responded significantly (P less than 0.05) to 100 microunits/ml insulin. The insulin binding affinities in liver membranes from agouti mice were higher than those from either obese or hypophysectomized yellow mice. The insulin receptor densities were similar in both agouti and obese yellow mice, but higher in hypophysectomized yellow mice (P less than 0.05). Treatment with hGH1-43 slightly increased, although not significantly, the insulin receptor density in yellow obese mice while hGH showed essentially no change. Therefore, hypophysectomy appeared to increase tissue response and decrease insulin resistance by increasing receptor numbers and lowering the circulating insulin levels. Furthermore, the insulin-like action of hGH was elicited directly in vivo by hGH1-43 in hypophysectomized yellow mice.  相似文献   

13.
Proteolytically cleaved human 22 kDa growth hormone (22K hGH) between the amino acid residues 134 and 150 by plasmin or other proteases in vitro has been reported to be most active in growth promoting activity. In this study a deleted mutant hGH lacking amino acid residues from 135 to 146 and having more sensitivity to plasmin digestion was produced using the inverse polymerase chain reaction method and the Escherichia coli expression system. The mutant, hGH delta 135-146, was folded and purified effectively and found to be more sensitive to plasmin cleavage to form the two-chain form in vitro. The biological activities of this plasmin sensitive hGH delta 135-146 were tested by in vitro cell proliferation assays and in vivo growth promoting assay. In Ba/F3-hGHR cells, which express receptors for hGH, hGH delta 135-146 showed 10-20% less growth promoting activity than 22K hGH, but expressed comparable quantities of IGF-I mRNA to that of 22K hGH. In Nb2 rat lymphoma cells, which proliferate in response to hGH via the lactogenic receptors, hGH delta 135-146 showed equivalent activities to those of 22K hGH at lower concentrations. By the body weight gain test using hypophysectomized rats, a lower dose (2.5 nmol kg-1) of hGH delta 135-146 exhibited an equivalent activity to that of wild type 22K hGH, but a higher dose (25 nmol kg-1) of the mutant showed less growth promoting activity than 22K hGH. These results indicated that the plasmin sensitive recombinant hGH delta 135-146 failed to show higher biological activity than the 22K hGH in vivo, suggesting the unsuccessful formation of the active two-chain form in vivo.  相似文献   

14.
Nonviral gene transfer was investigated as a potential treatment of growth hormone deficiency (GHD) using hypophysectomized mice as a model. After a single hydrodynamic administration of naked plasmid DNA containing the human growth hormone (hGH) gene controlled by an ubiquitin promoter, sustained elevation of circulating hGH was observed the entire observation period (68 days), with a concomitant normalization of circulating insulin-like growth factor I (IGF-I) and IGF-binding protein-3. Furthermore, longitudinal growth was corrected in terms of normalization of tibia length, tail length, and body weight gain. Liver, spleen, and lung weights were normalized, whereas heart weight was normalized partly. hGH mRNA was expressed exclusively in liver tissue. In conclusion, we showed that nonviral hGH gene transfer normalizes longitudinal growth in hypophysectomized mice, indicating that this method potentially could be relevant as a new therapeutic tool in the clinical handling of GHD.  相似文献   

15.
Human growth hormone (hGH) binds and activates lactogenic receptors by a sequential receptor dimerization mechanism. The affinity for the first lactogenic receptor is increased due to one zinc molecule linking hGH residues H18 and E174, located in helices 1 and 4, respectively, with two adjacent residues in the lactogenic receptor (D187 and H188). Two functionally unique groups of mutant hGHs have been identified. Addition of 25 microM zinc to lactogenic bioassays differentially affects mutant activities based on which group they belong to. One mutation (G120R) is located within the binding surface of hGH that interacts with the second lactogenic receptor. In the presence of endogenous zinc, G120R reduces the maximal activity of hGH without altering either the agonist or antagonist phases of the bell-shaped dose-response curve. Addition of zinc to this assay further reduces the activity of this protein. In contrast, mutations within a hydrophobic motif in hGH that functionally couples the two lactogenic receptor binding sites decrease the sensitivity (right-shift) of the agonist phase of the dose-response curve without similarly affecting the antagonist phase. The addition of zinc to these lactogenic assays increases the sensitivity (left-shifts) of the dose-response curves, largely negating the effect of these mutations. The effects of zinc differentiate between mutations within these two distinct functional motifs by limiting the pool of potential conformations that are available for binding within either of the receptor binding sites of this ligand.  相似文献   

16.
The role of growth hormone (GH), as well as prolactin and ACTH, in the induction of the PRL receptor was investigated both in hypophysectomized male rat livers and in the livers of male rats bearing a GH secreting tumor. After 7 days of s.c. injections, specific binding (% SB) of PRL in controls and rats treated with oPRL, hGH, ACTH, hCG, estradiol (E2), or testosterone (T) was approximately 1%. Treatment with oPRL plus ACTH increased SB to 4%; adding E2 to this combination produced a further increase to 8%, whereas the addition of T decreased hepatic binding to 1%. Combination of hGH with ACTH was most effective, giving a SB of 33%, which is similar to that observed in the liver of rats bearing a GH secreting tumor (36%). These studies suggest that GH acts synergistically with PRL and/or ACTH to increase lactogenic binding sites in the male rat liver and that sex steroids have a modulating effect on this action.  相似文献   

17.
Even though 20K human growth hormone (20K-hGH) has 3-10% binding affinity for the rat liver and adipose tissue microsomes as compared to 22K-hGH, it was also reported that 20K-hGH has the same potency as 22K-hGH in the hypophysectomized rat weight gain assay. In order to investigate the reason why such controversial data exist, we have studied 20K- and 22K-hGH using the rat GH receptor extracellular domain (rGHR-ECD) and full-length rGHR. When we examined the complex formation of rGHR-ECD with 20K- and 22K-hGH in gel filtration assay, 20K-hGH formed no complex while 22K-hGH formed a 1:1 complex. Next, rGHR cDNA was introduced into Ba/F3 cells and CHO-K1 cells, and stable transfectants (Ba/F3-rGHR and CHO-rGHR) were established. In the proliferation of Ba/F3-rGHR cells, 20K-hGH had 10-fold lower activity than 22K-hGH, which is consistent with their affinities for rGHR. But surprisingly, in the Spi2.1 gene promoter activation in CHO-rGHR cells, 20K- and 22K-hGH had the same activity, which was found not only in stable CHO-rGHR clones but also in CHO-K1 cells transiently expressing rGHR. In conclusion, these results indicate that cellular activities of 20K- and 22K-hGH do not necessarily correlate with their binding affinities for rGHR.  相似文献   

18.
Three monoclonal antibodies (mAbs) (T6, U5, and U6) against prolactin (PRL) receptors in rat liver were studied in the rat lymphoma lactogen-dependent (Nb2-11C) and autonomous (Nb2-SP) cell lines. The mAbs had strong affinity for lactogen receptors (Ka = 12-14 nM-1), similar to that of human growth hormone (hGH) which is a lactogenic hormone. T6 and hGH competed for the same binding site, while U5 and U6 interacted with another epitope. The 125I-hGH-receptor complex could be immunoprecipitated by either U5 or U6, but not by T6. Affinity labeling and immunoblotting revealed that hGH and U6 bind to a protein of 63-65 kDa. T6, U5, and U6 were mitogenic in Nb2-11C cells but their respective potencies were 185-, 70-, and 4700-fold lower than that of hGH. Anti-mouse IgG enhanced the mitogenic effect of all three mAbs and almost completely abolished the differences between them, although their mitogenic activity was still 60-120-fold lower than hGH. Des-13-hGH, a competitive antagonist of hGH which hardly effected the binding of 125I-U5, inhibited the U5-stimulated proliferation of Nb2-11C cells in a noncompetitive manner, indicating that simultaneous binding of both ligands fixed the receptor in a nonactive conformation. A Fab fragment of T6 was not mitogenic, and inhibited the hGH-induced mitogenesis in a competitive manner, but its mitogenicity could be restored by anti-mouse IgG. We suggest that the dimerization or oligomerization of the lactogen receptor in Nb2-11C cells is an obligatory step in the transduction of the mitogenic signal. It may be induced by binding of the mAb to a site, which can be either identical or may even be distinct from that which binds the lactogenic hormone.  相似文献   

19.
Human placental lactogen (hPL) shares 85% sequence identity to human growth hormone (hGH) yet has some very different receptor-binding properties. For example, hPL binds 2300-fold weaker than hGH to the hGH receptor, yet these two hormones have similar affinities for prolactin receptors. We have expressed hPL in Escherichia coli, and we show that, like hGH, hPL requires zinc for tight binding to the extracellular domain of the human prolactin receptor (hPRLbp). In fact, hPL contains virtually the same receptor-binding determinants and zinc ligands (His-18, His-21, and Glu-174) that hGH uses for coordinating zinc in the hGH.hPRLbp complex. As with hGH, mutation of Glu-174 to Ala in hPL reduces the affinity for the hPRLbp by 1400-fold. We can increase the affinity of hPL by over 200-fold for the hGHbp by installing four hGH receptor determinants that are not conserved in hPL. By simultaneously introducing E174A, we produced a pentamutant whose binding affinity for the hGHbp is only 1.6-fold weaker than hGH, but whose binding affinity for the hPRLbp is weaker by greater than 1000-fold relative to wild-type hPL. Thus, we have identified an hPRLbp epitope in hPL, "recruited" an hGHbp epitope into hPL, and produced receptor selective analogs of hPL that are designed to bind tightly to either, neither, or both receptors. Such variants should be important molecular probes to link specific receptor-binding, activation, and biological events.  相似文献   

20.
Plants have been shown to be efficient systems for expressing a wide range of recombinant proteins from various origins. Here, using a plant virus‐based expression vector to produce human growth hormone (hGH) in Nicotiana benthamiana plants, we demonstrate, for the first time, that the plant‐produced hGH (pphGH) is biologically active in a hypophysectomized rat model. We observed an average weight gain of ~17 g per animal in a group of 10 animals that were injected subcutaneously with pphGH with 60 μg/dose for 10 days. With the increasing demand for hGH, accompanied with the need to make this recombinant protein available to a wider population at a more reasonable cost, plants provide a feasible alternative to current production platforms. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号