High-level expression of human stem cell factor fused with erythropoietin mimetic peptide in Escherichia coli

Stem cell factor (SCF) and erythropoietin are essential for normal erythropoiesis and induce proliferation and differentiation synergistically for erythroid progenitor cells. Here, we report our work on construction of SCF/erythropoietin mimetic peptide (EMP) fusion protein gene, in which human SCF cDNA (1-165aa) and EMP sequence (20aa) were connected using a short (GGGGS) or long (GGGGSGGGGGS) linker sequence. The SCF/EMP gene was cloned into the pBV220 vector and expressed in the Escherichia coli DH5alpha strain. The expression level of the fusion protein was about 30% of total cell protein. The resulting inclusion bodies were solubilized with 8 M urea, followed by dilution refolding. The renatured protein was subsequently purified by Q-Sepharose FF column. The final product was >95% pure by SDS-PAGE and the yield of fusion protein was about 40 mg/L of culture. UT-7 cell proliferation and human cord blood cell colony-forming assays showed that the fusion proteins exhibited more potent activity than recombinant human SCF, suggesting a new strategy to enhance biological activities of growth factors.     

Expression of a novel recombinant dual human stem cell factor in insect cells

Stem cell factor (SCF) is a hematopoietic cytokine that promotes the survival, proliferation, and differentiation of hematopoietic cells. A dual human stem cell factor (dhSCF) cDNA was constructed, which consisted of a full-length human stem cell factor cDNA plus a truncated hSCF cDNA (1-145aa), linked by a peptide (GGGGSGGGGSGG) coding region. The dhSCF gene was cloned into baculovirus transfer vector pAcSecG2T under the control of polyhedrin promoter. The Sf9 cells infected with the recombinant virus expressed rdhSCF up to 6000 U/10(6) cell in flask and 8300 U/10(6) cell in spinner flask. The rdhSCF was purified by two-step chromatography. The molecular mass of rdhSCF was examined by western blotting and HPLC analysis. The specific activity of rdhSCF was up to 3.1x10(6) U/mg, about 8.7 times as high as that of monomer rhSCF from Escherichia coli.     

Expression, refolding, and characterization of a novel recombinant dual human stem cell factor

A novel recombinant dual human stem cell factor (rdhSCF) gene which consisted of a full-length hSCF(1-165aa) cDNA and a truncated hSCF (1-145aa) cDNA, linked by a peptide (GGGGSGGGGSGG) coding region, was constructed and cloned into Escherichia coli expression vector pET-22b. The rdhSCF was expressed at high level in E. coli BL21(DE3) and existed mainly as inclusion bodies. The inclusion bodies were solubilized in urea and refolded by ion-exchange chromatography. After renaturation, the purity of the yielded rdhSCF was up to 90%. Cell proliferation assay showed that the specific activity of the rdhSCF was 2.86x10(5) U/mg, about 1.66 times as high as that of monomer rhSCF expressed in E. coli.     

Renaturation, purification, and characterization of human truncated macrophage colony-stimulating factor expressed in Escherichia coli

A human truncated macrophage colony-stimulating factor (M-CSF) encoding the amino acid residues from 3 to 153 of the native M-CSF was expressed by using a two-cistron expression system in Escherichia coli. The truncated M-CSF found in inclusion bodies was renatured and had CSF activity. Purification, which included a QAE-ZeTa preparative cartridge concentration step followed sequentially by HPLC on TSK-gel Phenyl-5PW and TSK-gel DEAE-5PW columns, gave an overall yield of 63.8%. The purified truncated M-CSF had a specific activity of 4 x 10(7) units/mg of protein. Peptide mapping of a lysylendopeptidase digest by reversed-phase HPLC confirmed the amino acid sequence predicted from the cDNA sequence. SDS-PAGE of the purified truncated M-CSF gave a single band at 17 kDa under reducing conditions and at 32 kDa under non-reducing conditions. Activated Thiol-Sepharose 6B column chromatography and other experiments failed to detect any free cysteine residue in spite of the existence of 7 cysteine residues in the truncated M-CSF subunit. These results indicate that it is a dimeric structure linked by one or more intermolecular disulfide bonds.     

重组人干细胞因子在昆虫细胞中的高效表达

含信号肽的可溶性人干细胞因子（ｈＳＣＦ）ｃＤＮＡ 基因重组于杆状病毒转移载体ｐＶＬ９４１ 中,重组转移载体ｐＶＬ９４１ＳＣＦ与野生型苜蓿夜蛾核型多角体病毒（ＡｃＮＰＶ）ＤＮＡ 共转染草地夜蛾细胞Ｓｆ９ 后,通过体内同源重组构建了重组病毒ＡｃＮＰＶＳＣＦ。Ｓｏｕｔｈｅｒｎ 杂交表明重组病毒基因组中含有ｈＳＣＦ基因片段。重组病毒感染单层Ｓｆ９ 细胞后,表达产物分泌到胞外培养液中。用ＭＴＴ 比色法和ＴＦ１ 细胞株测定表达产物与ＩＬ３ 的协同效应,测得感染重组病毒的培养细胞第三天表达量为１９７０ ｕｎｉｔｓ／ｍ Ｌ培养液。Ｗｅｓｔｅｒｎｂｌｏｔｔｉｎｇ 分析可见分子量为１８ ×１０３ 、２０ ×１０３ 和２２ ×１０３ 三条带。     

Human recombinant stem cell factor promotes spermatogonial proliferation,but not meiosis initiation in organ culture of newt testis fragments

We previously showed that mammalian FSH stimulates the proliferation of newt spermatogonia and induces their differentiation into primary spermatocytes in vitro. In the current study, to examine a possibility that stem cell factor (SCF) is involved in the proliferation of newt spermatogonia and/or their differentiation into primary spermatocytes, human recombinant SCF (rhSCF) was added to organ culture of testicular fragments. rhSCF was found to stimulate the spermatogonial proliferation and the spermatogonia progressed to the seventh generation that is the penultimate stage before primary spermatocyte stage. However, the spermatogonia did not differentiate into primary spermatocytes, but instead died of apoptosis. These results indicate that rhSCF promotes the proliferation of newt spermatogonia, but not the initiation of meiosis.     

Molecular cloning and sequencing of a novel cDNA encoding for a protein involved in human sperm function.

A cDNA encoding for an antigen, designated as NZ-3, was cloned and sequenced from human testis. The 1481-bp NZ-3 cDNA yielded an open reading frame (ORF) of 231 amino acids (aa) with the first ATG, Met start codon at nucleotide (nt) 104 and the stop codon TGA at nt 797. Extensive computer search indicated it to be a novel cDNA/protein. The ORF of NZ-3 cDNA was subcloned into pGEX-1lambdaT vector and expressed in glutathione S-transferase gene fusion system. The expressed recombinant protein had a molecular size of approximately 25 kDa, and the rabbit antibodies (Ab) against the recombinant antigen recognized a specific protein band of 63 +/- 3 kDa in the human testis extract. The NZ-3 antigen was located on the acrosomal and tail regions of human sperm cell and the NZ-3 Ab significantly (P < 0.001) inhibited human sperm capacitation and/or acrosome reaction. The novel recombinant NZ-3 antigen may find applications in immunocontraception and in specific diagnosis of human infertility.     

重组人干细胞因子的纯化

干细胞因子 (SCF)是一种重要的造血生长因子 ,它在自体造血干细胞动员、肿瘤放疗化疗的辅助治疗、贫血和其它血液病的治疗上具有良好的应用前景 .为建立一种实用的rhSCF制备工艺 ,从表达rhSCF的工程菌分离包涵体 ,用尿素变性 ,低浓度尿素溶液稀释复性 .复性液中的rhSCF经离子交换层析吸附、浓缩 ,凝胶排阻层析分离去除共价二聚体和疏水层析精纯化 ,获得纯化的rhSCF .纯化的rhSCF纯度大于 95 % ,回收率为 4 7% ,可促进人红白血病细胞TF - 1的生长 ,比活性为 0 .9× 10 6U mg ,与英国NIBSC的rhSCF标准品相似 .上述结果表明 ,所建立的制备高纯度rhSCF工艺高效简便 ,产物具有良好的生物活性     

Expression,refolding, and characterization of recombinant thrombopoietin/stem cell factor fusion protein in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Thrombopoietin/stem cell factor (TPO/SCF) is a novel fusion protein that combines the complementary biological effects of TPO and SCF into a single molecule. In this study, TPO/SCF gene was cloned into pET32a and expressed as a thioredoxin (Trx) fusion protein with a C-terminal 6His-tag in Escherichia coli BL21(DE3) under the control of T7 promoter. Trx-TPO/SCF protein approximately accounted for 20% of the total bacterial proteins and was found to accumulate in inclusion bodies. Inclusion bodies were separated from cellular debris, washed with buffer containing 2 M urea, and solubilized with 8 M urea. The refolding of Trx-TPO/SCF was then carried out by an on-column method. Soluble Trx-TPO/SCF was characterized for its dose-dependent effects on promoting cells proliferation in both TF1 and Mo7e cell lines. rhTPO/SCF was released by thrombin digestion and further purified by Ni²⁺ affinity chromatography. Western blot analysis confirmed the identities of Trx-TPO/SCF and rhTPO/SCF.     

The cloning and expression of the cDNA for ovine stem cell factor (kit-ligand) and characterization of its in vitro haematopoietic activity.

The cDNA encoding the soluble form of ovine stem cell factor (SCF) has been cloned and expressed. The soluble protein is predicted to be 165/166 amino acids in length, one more than the human and murine SCFs with which it shares 87% and 81% identity respectively. Ovine SCF has 98.5%, 95% and 91% identity with cattle, pig and dog SCF, respectively. The recombinant ovine (rov) SCF protein has been expressed in Chinese hamster ovary (CHO) cells, purified, and its biological activity on ovine bone marrow cells compared with that of interleukin 3 (rovIL-3), granulocyte-macrophage colony-stimulating factor (rovGM-CSF), interleukin 5 (rovIL-5), human macrophage colony-stimulating factor (M-CSF) and human erythropoietin (epo). On its own rovSCF supported the development of small numbers of neutrophil, macrophage, eosinophil, granulocyte-macrophage, mixed cell phenotype, haemopoietic blast cell and basophilic granular cell colonies in a soft agar clonogenic assay. In combination with each of the above cytokines rovSCF supported an increase in the number and size of the lineage-specific colony types that were stimulated by the other cytokines on their own. In an assay for precursors of multipotential colony-forming cells (multi-CFC), rovSCF in combination with rovIL-3 (but neither cytokine alone) supported the development of these early haematopoietic progenitor cells.     

Expression, purification, and characterization of a novel recombinant fusion protein, rhTPO/SCF, in Escherichia coli

Thrombopoietin (TPO) is the principal regulatory cytokine of megakaryopoiesis and thrombopoiesis and promotes all aspects of megakaryocyte development. Stem cell factor (SCF) is mainly a pleiotropic cytokine acting on hematopoiesis by promoting the survival and proliferation of hematopoietic stem cells and has a potent synergistic effect on megakaryopoiesis in the presence of TPO. Here, we report the construction, expression, and purification of a novel recombinant human thrombopoietin/stem cell factor (rhTPO/SCF) fusion protein, which consists of a truncated human thrombopoietin (1-157 a.a.) plus a truncated human stem cell factor (1-145 a.a.), linked by a peptide (GGGGSPGGSGGGGSGG). The TPO/SCF gene was cloned into the Escherichia coli expression vector pET28a and expressed in BL21(DE3) strain. The rhTPO/SCF constituted up to 6% of the total bacterial protein. Co-expression with E. coli chaperones, Trigger Factor (TF) and GroES/GroEL, and lowering cultivation temperature cooperatively improved the solubility of expressed rhTPO/SCF, resulting in about fourfold increase in the yield soluble rhTPO/SCF. The rhTPO/SCF was purified to homogeneity using anion exchange followed by metal affinity chromatography. Western blot analysis confirmed the identity of the purified protein. rhTPO/SCF stimulated a dose-dependent cell proliferation in both TF1 and Mo7e cell lines.     

Identification and characterization of a novel gene EOLA1 stimulating ECV304 cell proliferation

To study the changes in gene expression in endothelial cells stimulated by lipopolysaccharide (LPS) we performed subtraction hybridization on control human umbilical vein endothelial cells (HUVEC) versus HUVEC stimulated by LPS. A novel cDNA, named endothelial-overexpressed lipopolysaccharide-associated factor 1 (EOLA1), was cloned from our differentially expressed EST database of HUVEC cDNA library (GenBank Accession No. ). Computational analysis showed that EOLA1 is 1404bp long, encoding a 158aa, 17.8kDa protein, mapped to chromosome Xq27.4 with 5 exons, expressed in different human normal tissues and cancer cell lines. Using the EOLA1 cDNA as bait, we performed a yeast two-hybrid screening of a human liver cDNA library and identified metallothionein 2A (MT2A) as associated protein. Stable transfection of EOLA1 stimulates ECV304 cell proliferation. Our data suggest that the physical interaction of EOLA1 and MT2A may have an important role of cell protection in inflammation reaction.     

Administration of recombinant human stem cell factor (rhSCF) and granulocyte-colony stimulating factor (rhG-CSF) to maternal and fetal rhesus monkeys (Macaca mulatta).

Studies with recombinant human stem cell factor (rhSCF) and granulocyte-colony stimulating factor (rhG-CSF) have suggested significant clinical utility although little is known regarding the effect of these cytokines when administered during pregnancy. rhSCF (25 microg/kg/day)+/-rhG-CSF (50 microg/kg/day) were administered chronically to gravid rhesus monkeys ( n =12) or directly to the rhesus fetus ( n=2) during the second and third trimesters. Maternal/fetal blood samples were collected to assess circulating SCF/G-CSF levels and complete blood counts compared to non-treated animals (n=40). Fetal endogenous SCF levels were four-fold greater than the dam (fetus approximately 2500 pg/ml, dam approximately 500 pg/ml), whereas circulating G-CSF was similar in the fetal/maternal compartments ( approximately 50-100 pg/ml). There were no adverse effects detected in the fetus or dam as a result of SCF+/-G-CSF administration. Although high levels of SCF and G-CSF were achieved in the maternal circulation with maternal administration (SCF: 7000-15 000 pg/ml; G-CSF: 7000-54 000 pg/ml), there was little evidence of placental transport or effects on fetal haematopoiesis. In contrast, direct fetal administration of SCF+G-CSF resulted in a rapid rise in fetal neutrophil counts. These studies have shown the monkey to be an excellent model for studying haematopoietic interventions during gestation, and suggest the best approach for achieving haematopoietic changes in the fetus and newborn is by direct in utero administration.     

Residues 39-56 of Stem Cell Factor Protein Sequence Are Capable of Stimulating the Expansion of Cord Blood CD34+ Cells

Background

Stem cell factor (SCF) can stimulate hematopoietic stem cell (HSC) expansion; however, the specific structural region(s) of SCF protein that are critical for this function are still unknown. A novel monoclonal antibody (named 23C8) against recombinant human SCF (rhSCF) was previously found to inhibit the ability of rhSCF to enhance HSC expansion, making it possible to identify the relevant active region to HSC.

Methods

Eleven polypeptides were synthesized, which were designed to cover the full-length of rhSCF, with overlaps that are at least 3 amino acids long. ELISA was used to identify the polypeptide(s) that specifically react with the anti-SCF. The effects of the synthetic polypeptides on human HSC expansion, or on the ability of the full-length rhSCF to stimulate cell proliferation, were evaluated ex vivo. Total cell number was monitored using hemocytometer whereas CD34⁺ cell number was calculated based on the proportion determined via flow cytometry on day 6 of culture.

Results

Of all polypeptides analyzed, only one, named P0, corresponding to the SCF protein sequence at residues 39–56, was recognized by 23C8 mAb during ELISA. P0 stimulated the expansion of CD34⁺ cells derived from human umbilical cord blood (UCB). Addition of P0 increased the numbers of total mononucleated cells and CD34⁺ cells, by ~2 fold on day 6. P0 also showed partial competition against full-length rhSCF in the ex vivo cell expansion assay.

Conclusion

Residues 39–56 of rhSCF comprise a critical functional region for its ability to enhance expansion of human UCB CD34⁺ cells. The peptide P0 is a potential candidate for further development as a synthetic substitute for rhSCF in laboratory and clinical applications.     

Identification of a high molecular weight macrophage colony-stimulating factor as a glycosaminoglycan-containing species.

Chinese hamster ovary cells transfected with a 4.0-kilobase macrophage colony-stimulating factor (M-CSF) cDNA express two different M-CSF species; one has an apparent molecular weight of 85,000 and is identified as a homodimer of a 43-kDa subunit, and the other has an indeterminate structure greater than 200 kDa. In this study, we investigated the structure of the high molecular weight M-CSF by immunochemical procedures. The high molecular weight M-CSF was easily purified, since it bound tightly to DEAE-Sephacel and eluted at a characteristically high salt concentration. The high molecular weight M-CSF migrated as a diffuse band of over than 200,000 on nonreducing sodium dodecyl sulfate-polyacrylamide gels. Analysis of the same samples under reducing conditions revealed that the larger species consisted of a heteromer of the 43- and 150-200-kDa M-CSF subunits. Digestion of the 150-200-kDa M-CSF subunit with chondroitinase, which degrades the chondroitin sulfate glycosaminoglycan chain, yielded a 100 kDa band. This species was secreted instead of 150-200-kDa species when the cells were cultured in the presence of beta-D-xyloside, which inhibits the elongation of the chondroitin sulfate glycosaminoglycan chain in proteoglycans, providing additional evidence for the existence of a chondroitin sulfate chain in the 150-200-kDa M-CSF subunit. Removal of O- and N-linked carbohydrate from the 150-200-kDa subunit yielded a polypeptide chain with a larger molecular mass (approximately 45 kDa) than that of the 43-kDa subunit (approximately 25 kDa). Collectively, these results indicate that the 150-200-kDa M-CSF subunit is a proteoglycan with a core protein that may be an alternatively processed form of M-CSF.     

Degranulation and cytokine expression in human cord blood-derived mast cells cultured in serum-free medium with recombinant human stem cell factor

Human cord blood-derived mast cells (HCMC) grown in medium with serum and recombinant human stem cell factor (rhSCF) with or without interleukin (IL)-6 are less mature than human skin mast cells (HSMC). We found that c-kit-positive HCMC cultured for 8-10 weeks with rhSCF in serum-free medium became sensitive to basic secretatogues and expressed the serine protease, chymase, which is preferentially expressed in HSMC. The HCMC release beta-hexosaminidase (beta-HEX) within 1 min of stimulation with compound 48/80 or substance P, and release was suppressed by pertussis toxin. Approximately 34% of the HCMC in the serum-free culture stained positively with chymase antibody. Chymase and c-kit levels, and responsiveness to basic secretagogues, increased substantially after an additional 2 weeks in a serum-free environment with rhIL-6 and rhSCF. Moreover, Fc(epsilon)RI-dependent activation of the HCMC resulted in induction of cytokines and cyclooxygenase-2. These results show that HCMC can differentiate into a phenotype morphologically and functionally similar to HSMC if exposed to SCF in serum-free medium.     

Molecular cloning of mouse thioredoxin reductases

We screened clones for thioredoxin reductase genes with a degenerate PCR-based strategy and have isolated two novel cDNA clones from a mouse thymocyte cDNA library. These encode two distinct thioredoxin reductases (TrxR1 and TrxR2) with 499 and 527 amino acid (aa) residues and calculated molecular masses of 54.5 kDa and 56.8 kDa respectively. These proteins share 90% and 50% aa sequence identity with those of previously cloned human TrxR, containing the redox-active cysteines, FAD binding domain, and the selenocysteine (SeCys) insertion sequence, which is composed of a putative stem-loop sequence located in the 3'-untranslated region (UTR). TrxR2 showing less homology to human TrxR has a mitochondrial translocation signal and a mitochondrial prepeptide protease cleavage site in the N-terminal domain. Transient expression experiments of each gene as fusion proteins with Xpress-tagged protein in NIH 3T3 cells indicated that TrxR1 was localized in the nucleus and cytoplasm and TrxR2 in the mitochondria. Furthermore, we mapped the TrxR1 gene to chromosome 10 (placed 1.71 cR from D10Mit42, lod>3.0) and the TrxR2 gene to chromosome 16 (placed 22.56 cR from D16Mit34, lod>3.0). Thus, the mouse has at least two distinct nuclear genes for TrxR that have different translocation sites in the cell.