人重组GM—CSF／HSA—D3嵌合蛋白（GM—HSA）在大肠杆菌中的表达及其产…

将人粒细胞－巨噬细胞集落刺激因子（ＧＭ－ＣＳＦ）和人血清白蛋白第三功能区（ＨＳＡ－Ｄ３）的基因串联后,在Ｅ．ｃｏｌｉ中获高效表达,表达量占菌体蛋白的３２．６％。利用ＴＦ－１体外细胞活性测定表明,ＧＭ－ＨＳＡ的活性单位为１．０４×１０＾６Ｕ／ｍｇ,虽然其比活性低于ＧＭ－ＣＳＦ,但比后者具有更高的体外热稳定性和储藏稳定性。     

重组人MCAF／GM－CSF融合蛋白表达及其生物学活性研究

利用ＰＣＲ技术和ＤＮＡ体外重组方法,把作为导向效应细胞到靶部位的单核细胞趋化激活因子（ＭＣＡＦ）和粒细胞巨噬细胞集落刺激因子（ＧＭ－ＣＳＦ）进行基因融合,置于ｐＢＶ２２０载体的λＰＲＰＬ串联启动子下游,构建了ＳＤ序列与ＡＴＧ之间含有不同核苷酸组成的重组质粒ｐＭＧ０１、ｐＭＧ０２和ｐＭＧ０３。ｐＭＧ０１、ｐＭＧ０２和ｐＭＧ０３的翻译起始区都不存在稳定的二级结构,但ＤＨ５α（ｐＭＧ０２、ＤＨ５α（ｐＭＧ０３）的表达水平远远高于ＤＨ５α（ｐＭＧ０１）,ＤＨ５α（ＰＭＧ０１）几乎没有表达。表达产物经Ｗｅｓｔｅｒｎｂｌｏｔ检测表明,它能分别与ＭＣＡＦ和ＧＭ－ＣＳＦ抗体发生特异反应。生物学活性测定表明,表达产物具有明显的单核细胞趋化活性和维持ｈＧＭ－ＣＳＦ依赖的ＴＦ１细胞生长的特性,说明ＭＣＡＦ和ＧＭ－ＣＳＦ的生物学功能是相容的．     

优化mRNA翻译起始区提高人粒－巨噬细胞集落刺激因子在E．coli中的表达

人粒－巨噬细胞集落刺激因子（ｈＧＭ－ＣＳＦ）是一种重要的造血生长因子．利用基因重组技术构建两个ｈＧＭ－ＣＳＦ的Ｅ．ｃｏｌｉ表达菌株,一个为在不改变氨基酸顺序的前提下,对ｍＲＮＡ翻译起始区核苷酸顺序进行优化突变（ｈＧＭ－ＣＳＦ（Ｍ））,另一个为未突变的对照（ｈＧＭ－ＣＳＦ（Ｎ））．经酶切电泳、ＤＮＡ测序、ＳＤＳ－ＰＡＧＥ和Ｗｅｓｔｅｒｎｂｌｏｔ等分析鉴定,证明两者均能表达特异性的１４．６ｋＤｈＧＭ－ＣＳＦ,但ｈＧＭ－ＣＳＦ（Ｍ）的表达水平较ｈＧＭ－ＣＳＦ（Ｎ）提高了１．２６倍,占菌体总蛋白的１６．９％．ｍＲＮＡ翻译起始区二级结构预测分析表明,优化突变后生成自由能ΔＧ从原来的－１０．２提高至－９．４Ｋｃａｌ,ＡＵＧ从部分配对状态变为非配对状态．     

人GM—CSF cDNA的克隆和在大肠杆菌中的表达

从诱导的人胚肺细胞ＨＦＬ株中提取总ＲＮＡ．经ＲＴ－ＰＣＲ反应获取了人ＧＭ－ＣＳＦｃＤＮＡ,ＤＮＡ序列测定表明其顺序与文献报道完全一致。为了获得高效表达,应用ＰＣＲ改造了人ＧＭ－ＣＳＦ的ｃＤＮＡ５’端核苷酸序列,并将改造的人ＧＭ－ＣＳＦ基因插入含Ｔ７启动子的质粒ｐＥＴ－１１ｄ构建成表达质粒ｐＥＴＣ－５,将此质粒转化大肠杆菌株ＢＬ２１（ＤＥ３）得到表达菌株ＢＬＥＣ４。表达菌株用０．５ｍｏｌ／ＬＩＰＴＧ诱导２小时后,产生大量重组蛋白并形成包涵体。ＳＤＳ—ＰＡＧＥ电泳图谱扫描结果表明,ｒｈＧＭ－ＣＳＦ产量占菌体总蛋白量的１６％。ＥＬＩＳＡ和ＴＦ－１细胞培养测定表明,初步纯化和复性的ｒｈＧＭ－ＣＳＦ具有天然的ｈＧＭ－ＣＳＦ生物活性。     

重组人GM－CSF／MCAF融合蛋白抗血清的制备与鉴定

重组人粒细胞巨噬细胞集落刺激因子（ＧＭ－ＣＳＦ）和人单核细胞趋化激活因子（ＭＣＡＦ）融合蛋白经ＳｅｐｈａｄｅｘＧ－７５和ＣＭ－ＳｅｐｈａｒｏｓｅＦＦ两步柱层析,获得了电泳纯的ＧＭ－ＣＳＦ／ＭＣＡＦ融合蛋白。为进一步研究其结构与功能,我们以纯化的该融合蛋白为抗原免疫家兔制备抗血清。ＤｏｔＥＬＩＳＡ和Ｗｅｓｔｅｒｎｂｌｏｔ试验表明,该抗血清效价高、特异性好,可分别与ＧＭ－ＣＳＦ／ＭＣＡＦ、ＧＭ－ＣＳＦ和ＭＣＡＦ发生反应。     

重组人GM—CSF基因在昆虫细胞中的表达

利用苜蓿夜蛾核型多角体病毒（ＡｃＮＰＶ）带β－Ｇａｌａｃｔｏｓｉｄａｓｅ基因标记的非融合蛋白基因转移载体ｐＢｌｕｅＢａｃ将人粒细胞巨噬细胞集落刺激因子（ｈＧＭ－ＣＳＦ）基因成功地插入病毒ＡｃＮＰＶ的基因组中．ｈＧＭ－ＣＳＦ基因在感染重组病毒的草地夜蛾（Ｓｐｏｄｏｐｔｅｒａｆｒｕｇｉｐｅｒｄａ）培养细胞Ｓｆ９中得到表达,感染后的Ｓｆ９细胞培养液能刺激人骨髓细胞在体外形成典型的集落,表达水平可达２．７×１０５５ＣＦＵ／ｍｌ。以ｈＧＭ－ＣＳＦ单抗所作的ＷｅｓｔｅｒｎＢｌｏｔｔｉｎｇ表明,表达的ｈＧＭ－ＣＳＦ对是３种糖基化程度不同的产物,分子量分别约为１５ｋｄ,１８ｋｄ和２０ｋｄ。     

重组人GM－CSF／MCAF融合蛋白抗血清的制备与鉴定

重组人粒细胞巨噬细胞集落刺激因子（ＧＭ－ＣＳＦ）和人单核细胞趋化激活因子（ＭＣＡＦ）融合蛋白经ＳｅｐｈａｄｅｘＧ－７５和ＣＭ－ＳｅｐｈａｒｏｓｅＦＦ两步柱层析,获得了电泳纯的ＧＭ－ＣＳＦ／ＭＣＡＦ融合蛋白。为进一步研究其结构与功能,我们以纯化的该融合蛋白为抗原免疫家兔制备抗血清。ＤｏｔＥＬＩＳＡ和Ｗｅｓｔｅｒｎｂｌｏｔ试验表明,该抗血清效价高、特异性好,可分别与ＧＭ－ＣＳＦ／ＭＣＡＦ、ＧＭ－ＣＳＦ和ＭＣＡＦ发生反应。     

用逆转录病毒载体表达人粒细胞－巨噬细胞集落刺激因子

应用基因工程的方法,将含有巨细胞病毒（ＣＭＶ）启动子的基因片段和人粒细胞－巨噬细胞集落刺激因子（ｈＧＭ－ＣＳＦ）的ｃＤＮＡ,克隆进逆转录病毒载体Ｎ２Ａ,得到重组质粒Ｎ２Ａ／ＣＭＶ／ｈＧＭ－ＣＳＦ．经脂质体包装并转染包装细胞,通过Ｇ４１８药物筛选,得到抗性克隆。经ＰＣＲ和Ｓｏｕｔｈｅｍｂｌｏｔ检测证实,ＧＭ－ＣＳＦ基因已整合到该克隆细胞的染色体上,获得的逆转录病毒滴度达１０￣４ＣＦＵ／ｍｌ,克隆细胞培养上清用ＴＦ－１细胞可检测到ＧＭ－ＣＳＦ活性。     

神经节苷脂GM_3对人白血病J6－2细胞磷脂酰胆碱代谢的影响

神经节苷脂ＧＭ３诱导人单核样白血病Ｊ６－２细胞沿单核／巨噬细胞途径分化．在ＧＭ３诱导分化同时,Ｊ６－２细胞磷脂代谢发生了显著变化．采用（（３２）Ｐ）Ｐｉ、［ＧＨ３－３Ｈ］胆碱和［ＣＨ３－３Ｈ］ＳＡＭ参入实验对ＧＭ３影响Ｊ６－２细胞ＰＣ代谢的机制进行了初步的探讨．ＧＭ３促进［（３２）Ｐ］Ｐｉ参入Ｊ６－２细胞ＰＣ;抑制［ＣＨ３－３Ｈ］胆碱参入ＰＣ及ＰＣ合成的前体磷酸胆碱及ＣＤＰ－胆碱;ＧＭ３促进［ＣＨ３－３Ｈ］ＳＡＭ参入ＰＣ,但抑制［ＣＨ３－３Ｈ］ＳＡＭ参入ＰＣ合成的前体胆碱、磷酸胆碱和ＣＤＰ－胆碱．上述结果提示,ＧＭ３抑制Ｊ６－２细胞ＰＣ合成的ＣＤＰ－胆碱途径,促进ＰＣ合成的ＰＥ甲基化途径．     

hGM－CSF基因及其调控研究进展

人粒细胞－巨噬细胞集落刺激因子基因表达受到转录调控与转录后调控。５＇非转录区的一些顺式调控成分,如ＣＡＴＴ（Ａ／Ｔ）重复序列,富含ＧＣ序列,ＣＫ－１、ＣＫ－２、ｋＢ特异序列与可诱导的ＣｓＡ敏感增强子成分等在转录水平上调控ｈＧＭ－ＣＳＦ的表达。３＇非翻译区有一６２ｂｐ富含ＡＵ序列,这与ｍＲＮＡ的稳定性相关,在翻译水平调控ｈＧＭ－ＣＳＦ的表达,细胞因子与一些刺激因子通过不同的机制作用于ｈＧＭ－ＣＳＦ基     

粒细胞-巨噬细胞集落刺激因子/白细胞介素-3融合蛋白的表达研究

利用PCR扩增得到粒细胞巨噬细胞集落刺激因子(GM-CSF)、白细胞介素-3(IL-3)完整基因片段,将其分别克隆至pGEM-T,构建成GMCSF/IL-3融合蛋白基因,DNA序列与设计预期一致。将得到的融合蛋白基因克隆至T7RNA聚合酶表达载体pT7zz,得到表达质粒pFu,经转化至表达宿主E.coli BL21(DE3),在IPTG诱导下获得融合蛋白目的产物的直接表达。经SDS-PAGE电泳鉴定扫描分析,目的基因产物表达量占菌体总蛋白量的30%以上,目的基因表达产物以包涵体的形式表达。Westernblot鉴定表明,该表达产物可以与GM-CSF抗体及IL-3抗体特异性结合。目的基因表达产物经过包涵体变性、透析复性及柱层析纯化,用GM-CSF、IL-3依赖细胞株TF-1检测,具有明显的生物学活性。     

cDNA cloning and expression of an apoptosis-related gene, human TFAR15 gene

By means of cDNA-RDA method. some cDNA fragments were found to have high levels of expression during deprivation of GM-CSF (granulocyte macrophage-colony stimulating factor) in a human myeloid cell line, TF-1 cells. One of these tragments was identified as a novel gene. To get the full length of cDNA, rapid amplification of cDNA ends (RACE) and expressed sequence tags (EST) overlapping fragments assembling strategies were used. The novel gene was named TRAF15 (TF-1 cell apoptosis related gene-15), which consists of 1218 nueleotides and encodes 212 amino acids. The putative protein protein product of TFAR15 is partially homologous to C. elegans protein C14A4. 11. TFAR15 mRNA is expressed in fetal liver, kidney, spleen and lung. and also in some human myeloid cell lines. Both of the TFAR15 mRNA and protein were highly expressed in TF-(?) cells after GM-CSF withdrawal. In vitro analysis showed that the recombinant TFAR15 protein co(?)ld inhibit the natural cell death of 293 cells, an embryonic kidney cell     

cDNA cloning and expression of an apoptosis-related gene, humanTFAR15 gene

By means of cDNA-RDA method, some cDNA fragments were found to have high levels of expression during deprivation of GM-CSF (granulocyte macrophage-colony stimulating factor) in a human myeloid cell line, TF-1 cells. One of these fragments was identified as a novel gene. To get the full length of cDNA, rapid amplification of cDNA ends (RACE) and expressed sequence tags (EST) overlapping fragments assembling strategies were used. The novel gene was named TRAF15 (TF-1 cell apoptosis related gene-15), which consists of 1 218 nucleotides and encodes 212 amino acids. The putative protein product of TFAR15 is partially homologous toC. elegans protein C14A4.11. TFAR15 mRNA is expressed in fetal liver, kidney, spleen and lung, and also in some human myeloid cell lines. Both of the TFAR15 mRNA and protein were highly expressed in TF-1 cells after GM-CSF withdrawal.In vitro analysis showed that the recombinant TFAR15 protein could inhibit the natural cell death of 293 cells, an embryonic kidney cell line.     

GM-CSF rescues TF-1 cells from growth factor withdrawal-induced, but not differentiation-induced apoptosis: the role of BCL-2 and MCL-1.

Cytokines such as granulocyte-macrophage colony-stimulating factor (GM-CSF) and IL-3 promote the survival and stimulate the proliferation of haematopoietic cells. Using the GM-CSF-dependent TF-1 myeloid leukaemia cell line, the authors show that the endogenous levels of BCL-2 and MCL-1 are downregulated upon GM-CSF withdrawal, whereas the levels of BCL-x(L)and Bax are unchanged. Re-exposure of growth factor deprived cells to GM-CSF resulted in an early and transient increase in MCL-1 expression, and prolonged induction of BCL-2, which prevented apoptosis. In contrast, the expression of BCL-2 and MCL-1 were not modulated during TPA-induced differentiation of TF-1 cells, which was followed by apoptosis despite the presence of GM-CSF. TF-1 cells overexpressing BCL-2 or MCL-1 underwent delayed apoptosis upon growth factor withdrawal, but displayed no impaired apoptosis in response to TPA. Erythropoietin (Epo) induced the expression of BCL-2 and MCL-1 protein in TF-1 cells, however it did not support their long term proliferation, further demonstrating that upregulation of these anti-apoptotic genes is insufficient for the long term proliferation of TF-1 cells.     

Inhibition of GM-CSF/IL-3/IL-5 signaling by antisense oligodeoxynucleotides targeting the common beta chain of their receptors.

Granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-3 (IL-3), and IL-5 play a key role in allergic inflammation. They mediate their effect via receptors that consist of two distinct subunits, a cytokine-specific alpha subunit and a common beta subunit (betac) that transduces cell signaling. We sought to down-regulate the biologic activities of GM-CSF, IL-3, and IL-5 simultaneously by inhibiting betac mRNA expression with antisense technology. Experiments were performed with TF-1 cells (a human erythroleukemia cell line expressing GM-CSF, IL-3, and IL-5 receptors, which proliferates in response to these cytokines), monocytic U937 cells, which require these cytokines for differentiation, and purified human eosinophils. Cells were treated with antisense phosphorothioate oligodeoxynucleotides (ODN) targeting betac mRNA. In contrast to nontreated cells and cells treated by sense or mismatched ODN, antisense ODN inhibited betac mRNA expression and significantly decreased the level of cell surface betac protein expression on TF-1 and U937 cells. Receptor function was also affected. Antisense ODN were able to inhibit TF-1 cell proliferation in vitro in the presence of GM-CSF, IL-3, or IL-5 in the culture medium and eosinophil survival. We suggest that antisense ODN against betac may provide a new therapeutic alternative for the treatment of neoplastic or allergic diseases associated with eosinophilic inflammation.     

GM-CSF triggers a rapid,glucose dependent extracellular acidification by TF-1 cells: Evidence for sodium/proton antiporter and PKC mediated activation of acid production

The extracellular acidification rate of the human bone marrow cell line, TF-1, increases rapidly in response to a bolus of recombinant granulocyte-macrophage colony stimulating factor (GM-CSF). Extracellular acidification rates were measured using a silicon microphysiometer. This instrument contains micro-flow chambers equipped with potentiometric sensors to monitor pH. The cells are immobilized in a fibrin clot sandwiched between two porous polycarbonate membranes. The membranes are part of a disposable plastic “cell capsule” that fits into the microphysiometer flow chamber. The GM-CSF activated acidification burst is dose dependent and can be neutralized by pretreating the cytokine with anti-GM-CSF antibody. The acidification burst can be resolved kinetically into at least two components. A rapid component of the burst is due to activation of the sodium/proton antiporter as evidenced by its elimination in sodium-free medium and in the presence of amiloride. A slower component of the GM-CSF response is a consequence of increased glycolytic metabolism as demonstrated by its dependence on D-glucose as a medium nutrient. Okadaic acid (a phospho-serine/threonine phosphatase inhibitor), phorbol 12-myristate 13-acetate (PMA, a protein kinase C (PKC) activator), and ionmycin (a calcium ionophore) all produce metabolic bursts in TF-1 cells similar to the GM-CSF response. Pretreatment of TF-1 cells with PMA for 18 h resulted in loss of the GM-CSF acidification response. Although this treatment is reported to destroy protein kinase activity, we demonstrate here that it also down-regulates expression of high-affinity GM-CSF receptors on the surface of TF-1 cells. In addition, GM-CSF driven TF-1 cell proliferation was decreased after the 18 h PMA treatment. Short-term treatment with PMA (1–2h) again resulted in loss of the GM-CSF acidification response, but without a decrease in expression of high-affinity GM-CSF receptors. Evidence for involvement of PKC in GM-CSF signal transduction was obtained using calphostin C, a specific inhibitor of PKC, which inhibited the GM-CSF metabolic burst at a subtoxic concentration. Genistein and herbimycin A, tyrosine kinase inhibitors, both inhibited the GM-CSF response of TF-1 cells, but only at levels high enough to also inhibit stimulation by PMA. These results indicate that GM-CSF activated extracellular acidification of TF-1 cells is caused by increases in sodium/proton antiporter activity and glycolysis, through protein kinase signalling pathways which can be both activated and down-regulated by PMA. © 1993 Wiley-Liss, Inc.     

Establishment and characterization of a unique human cell line that proliferates dependently on GM-CSF, IL-3, or erythropoietin

We have established a novel cell line, designated as TF-1, from a patient with erythroleukemia, which showed complete growth dependency on granulocyte-macrophage colony-stimulating factor (GM-CSF) or on interleukin-3 (IL-3) and carried a homogeneous chromosomal abnormality (54X). Erythropoietin (EPO) also sustained the short-term growth of TF-1, but did not induce erythroid differentiation. These three hematopoietic growth factors acted on TF-1 synergistically. Transforming growth factor-beta and interferons inhibited the factor-dependent growth of TF-1 cells in a dose-dependent fashion, and monocyte-colony stimulating factor and interkeukin-1 enhanced the GM-CSF-dependent growth of TF-1. Ultrastructural studies revealed some very immature features in this cell line. Although TF-1 cells do not express glycophorin A or carbonyl anhydrase I, the morphological and cytochemical features, and the constitutive expression of globin genes, indicate the commitment of TF-1 to erythroid lineage. When induced to differentiate, TF-1 entered two different pathways. Specifically, hemin and delta-aminolevulinic acid induced hemoglobin synthesis, whereas TPA induced dramatic differentiation of TF-1 into macrophage-like cells. In summary, TF-1 is a cell line of immature erythroid origin that requires GM-CSF, IL-3, or EPO for its growth and that has the ability to undergo differentiation into either more mature erythroid cells or into macrophage-like cells. TF-1 is a useful tool for analyzing the human receptors for IL-3, GM-CSF, and EPO or the signal transduction of these hemopoietic growth factors.     

GM-CSF-DFF40: a novel humanized immunotoxin induces apoptosis in acute myeloid leukemia cells

DNA fragmentation factor 40 (DFF40) is an endonuclease that acts downstream in the apoptotic cascade. The objective of this study was to generate a novel humanized chimeric protein with human DFF40 fused with GM-CSF for targeting acute myeloid leukemia (AML) cells. cDNA cloning of human DFF40 and GM-CSF was done and the chimeric gene GM-CSF-DFF40 was generated by overlap extension PCR. The fusion protein was expressed in E.coli, purified, refolded and characterized. In vitro cytotoxicity was evaluated on various AML cell lines. Treated cell lines were screened for various morphological and biochemical changes that are characteristic of apoptosis, by different assays like annexin V-FITC staining, TUNEL assay, JC-1 staining and immunocytochemistry of pro-apoptotic proteins and caspases. Cell cycle analysis of treated cells was done to quantify the percentage of apoptotic cells. The chimeric protein was found to be cytotoxic to AML cells in a dose and time dependent manner. Morphological changes such as formation of apoptotic bodies were revealed by microscopic examination of treated cells after staining. Immunocytochemical staining demonstrated biochemical changes such as changes in mitochondrial membrane potential, mitochondrial co-localization of Bax, cytochrome c release, presence of activated caspase-3 and DNA fragmentation. FACS analysis proved the presence of apoptotic cells following treatment. The chimeric protein GM-CSF-DFF40 was found to mediate targeted killing of AML cells by inducing apoptosis. Thus, this chimeric construct can act as a prospective candidate for targeted therapy of AML and other malignancies where GM-CSF receptor expression is upregulated.     

A point mutation in the N-terminal coiled-coil domain releases c-Fes tyrosine kinase activity and survival signaling in myeloid leukemia cells

The c-fes locus encodes a 93-kDa non-receptor protein tyrosine kinase (Fes) that regulates the growth and differentiation of hematopoietic and vascular endothelial cells. Unique to Fes is a long N-terminal sequence with two regions of strong homology to coiled-coil oligomerization domains. We introduced leucine-to-proline substitutions into the coiled coils that were predicted to disrupt the coiled-coil structure. The resulting mutant proteins, together with wild-type Fes, were fused to green fluorescent protein and expressed in Rat-2 fibroblasts. We observed that a point mutation in the first coiled-coil domain (L145P) dramatically increased Fes tyrosine kinase and transforming activities in this cell type. In contrast, a similar point mutation in the second coiled-coil motif (L334P) was without effect. However, combining the L334P and L145P mutations reduced transforming and kinase activities by approximately 50% relative to the levels of activity produced with the L145P mutation alone. To study the effects of the coiled-coil mutations in a biologically relevant context, we expressed the mutant proteins in the granulocyte-macrophage colony-stimulating factor (GM-CSF)-dependent myeloid leukemia cell line TF-1. In this cellular context, the L145P mutation induced GM-CSF independence, cell attachment, and spreading. These effects correlated with a marked increase in L145P protein autophosphorylation relative to that of wild-type Fes. In contrast, the double coiled-coil mutant protein showed greatly reduced kinase and biological activities in TF-1 cells. These data are consistent with a role for the first coiled coil in the negative regulation of kinase activity and a requirement for the second coiled coil in either oligomerization or recruitment of signaling partners. Gel filtration experiments showed that the unique N-terminal region interconverts between monomeric and oligomeric forms. Single point mutations favored oligomerization, while the double point mutant protein eluted essentially as the monomer. These data provide new evidence for coiled-coil-mediated regulation of c-Fes tyrosine kinase activity and signaling, a mechanism unique among tyrosine kinases.