Site-specific PEGylation of engineered cysteine analogues of recombinant human granulocyte-macrophage colony-stimulating factor

Granulocyte macrophage colony-stimulating factor (GM-CSF) stimulates proliferation of hematopoietic cells of the macrophage and granulocyte lineages and is used clinically to treat neutropenia and other myeloid disorders. Because of its short circulating half-life, GM-CSF is administered to patients by daily injection. We describe here the engineering of highly potent, long-acting human GM-CSF proteins through site-specific modification of GM-CSF cysteine analogues with a cysteine-reactive poly(ethylene glycol) (PEG) reagent. Thirteen cysteine analogues of GM-CSF were constructed, primarily in nonhelical regions of the protein believed to lie away from the major receptor binding sites. The GM-CSF cysteine analogues were properly processed but insoluble following secretion into the Escherichia coli periplasm. The proteins were refolded and purified by column chromatography. Ten of the cysteine analogues could be modified with a 5-kDa maleimide PEG, and seven of the mono-PEGylated proteins were purified by ion-exchange column chromatography. Biological activities of the 13 cysteine analogues and 7 PEGylated cysteine analogues were comparable to that of wild-type GM-CSF in an in vitro cell proliferation assay using human TF-1 cells. One cysteine analogue was modified with larger 10-, 20-, and 40-kDa PEGs, with only minimal loss of in vitro bioactivity. Pharmacokinetic experiments in rats demonstrated that the PEGylated proteins had up to 47-fold longer circulating half-lives than wild-type GM-CSF. These data demonstrate the utility of site-specific PEGylation for creating highly potent, long-acting GM-CSF analogues and provide further evidence that the nonhelical regions of human GM-CSF examined are largely nonessential for biological activity of the protein.     

Site-specific interaction of bone morphogenetic protein 2 with procollagen II

Bone morphogenetic proteins (BMPs) play a critical role in embryo development, organogenesis, and regeneration of damaged tissues. Biological activity of BMPs depends on their local concentration, which is regulated by intracellular enzymatic processing of pro-BMPs, and then the binding of secreted BMPs to antagonizing extracellular proteins. It has been suggested that BMPs interact with structural proteins of the extracellular matrix, but this process is poorly understood. To study interactions of BMPs with fibrillar collagens in detail we expressed recombinant procollagen II variants in which specific domains that correspond to the D-periods were deleted. Subsequently, the procollagen II variants were used in biosensor and immuno-precipitation binding assays to map the regions of procollagen II with a high affinity for the BMP-2. Our data suggest that interaction of BMP-2 with procollagen II is site-specific, and that the high-affinity binding site is located in the D4-period of the collagen triple helix. We hypothesize that the binding of BMP-2 to collagen II reflects a general mechanism of interaction between the fibrillar collagens and morphogens that belong to the transforming growth factor (TGF)-beta superfamily.     

重组溶葡萄球菌酶的PEG定点修饰

为获得高抗菌活性聚乙二醇(PEG)定点修饰的溶葡萄球菌酶(Lysn),根据该酶的高级结构,在它的催化域和结合域上优选8个位点(Q9、N13、N40、T172、N174、G197、V240和T244),将其分别突变成半胱氨酸,纯化后的溶葡萄球菌酶突变体经DTT处理后与20 kDa的单甲氧基聚乙二醇马来酰亚胺(m PEG-MAL)进行定点修饰反应,RP-HPLC分析显示PEG修饰率大于70%,修饰产物经MacroCap SP阳离子交换层析纯化后,PEG化溶葡萄球菌酶的纯度大于95%。比浊法和最小抑菌浓度(MIC)实验表明20K-PEG-Lysn V240C和20K-PEG-Lysn T244C的抗菌活性维持在原来的50%左右。研究结果为溶葡萄球菌酶全身给药治疗金黄色葡萄球菌感染奠定基础。     

Changes in bone morphogenetic protein receptor-IB localisation regulate osteogenic responses of human bone cells to bone morphogenetic protein-2

Cell responses to bone morphogenetic proteins (BMP) depend on the expression and surface localisation of transmembrane receptors BMPR-IA, -IB and -II. The present study shows that all three antigens are readily detected in human bone cells. However, only BMPR-II was found primarily at the plasma membrane, whereas BMPR-IA was expressed equally in the cytoplasm and at the cell surface. Notably, BMPR-IB was mainly intracellular, where it was associated with a number of cytoplasmic structures and possibly the nucleus. Treatment with transforming growth factor β1 (TGF-β1) caused rapid translocation of BMPR-IB to the cell surface, mediated via the p38 mitogen-activated protein kinase (MAPK) and protein kinase C (PKC) pathways. The TGF-β1-induced increase in surface BMPR-IB resulted in significantly elevated BMP-2 binding and Smad1/5/8 phosphorylation, although the receptor was subsequently internalised and the functional response to BMP-2 consequently down-regulated. The results show, for the first time, that BMPR-IB is localised primarily in intracellular compartments in bone cells and that TGF-β1 induces rapid surface translocation from the cytoplasm to the cell surface, resulting in increased sensitivity of the cells to BMP-2.     

Site-specific PEGylation at histidine tags

The efficacy of protein-based medicines can be compromised by their rapid clearance from the blood circulatory system. Achieving optimal pharmacokinetics is a key requirement for the successful development of safe protein-based medicines. Protein PEGylation is a clinically proven strategy to increase the circulation half-life of protein-based medicines. One limitation of PEGylation is that there are few strategies that achieve site-specific conjugation of PEG to the protein. Here, we describe the covalent conjugation of PEG site-specifically to a polyhistidine tag (His-tag) on a protein. His-tag site-specific PEGylation was achieved with a domain antibody (dAb) that had a 6-histidine His-tag on the C-terminus (dAb-His(6)) and interferon α-2a (IFN) that had an 8-histidine His-tag on the N-terminus (His(8)-IFN). The site of PEGylation at the His-tag for both dAb-His(6)-PEG and PEG-His(8)-IFN was confirmed by digestion, chromatographic, and mass-spectral studies. A methionine was also inserted directly after the N-terminal His-tag in IFN to give His(8)Met-IFN. Cyanogen bromide digestion studies of PEG-His(8)Met-IFN were also consistent with PEGylation at the His-tag. By using increased stoichiometries of the PEGylation reagent, it was possible to conjugate two separate PEG molecules to the His-tag of both the dAb and IFN proteins. Stability studies followed by in vitro evaluation confirmed that these PEGylated proteins retained their biological activity. In vivo PK studies showed that all of the His-tag PEGylated samples displayed extended circulation half-lives. Together, our results indicate that site-specific, covalent PEG conjugation at a His-tag can be achieved and biological activity maintained with therapeutically relevant proteins.     

Enhancement of bone repair with a helper-dependent adenoviral transfer of bone morphogenetic protein-2

Regional gene therapy, which involves the delivery of growth factors to a specific anatomic site, has the potential to enhance bone formation in clinical application. Helper-dependent adenoviral vectors, which have deleted all of the viral coding regions, have been shown to be safe and highly efficient with long-lasting transgene expression. In this study, we constructed a helper-dependent adenoviral vector producing bone morphogenetic protein-2 (AdHDBMP-2). The AdHDBMP-2 increased the alkaline phosphatase activity of W-20-17 cells in vitro. In addition, when AdHDBMP-2 infected rat bone marrow cells were implanted into the hindlimbs of SCID mice, orthotopic bone formation was shown at 2 weeks. To our knowledge, this is the first study to demonstrate bone formation with the helper-dependent adenoviral vector with the BMP-2 expression cassette. This type of gene therapy vector could prove to be highly useful for bone augmentation in patients with bone loss associated with trauma, revision total joint arthroplasty, or cancer.     

Latexin is involved in bone morphogenetic protein-2-induced chondrocyte differentiation

Latexin is the only known carboxypeptidase A inhibitor in mammals. We previously demonstrated that BMP-2 significantly induced latexin expression in Runx2-deficient mesenchymal cells (RD-C6 cells), during chondrocyte and osteoblast differentiation. In this study, we investigated latexin expression in the skeleton and its role in chondrocyte differentiation. Immunohistochemical studies revealed that proliferating and prehypertrophic chondrocytes expressed latexin during skeletogenesis and bone fracture repair. In the early phase of bone fracture, latexin mRNA expression was dramatically upregulated. BMP-2 upregulated the expression of the mRNAs of latexin, Col2a1, and the gene encoding aggrecan (Agc1) in a micromass culture of C3H10T1/2 cells. Overexpression of latexin additively stimulated the BMP-2-induced expression of the mRNAs of Col2a, Agc1, and Col10a1. BMP-2 treatment upregulated Sox9 expression, and Sox9 stimulated the promoter activity of latexin. These results indicate that latexin is involved in BMP-2-induced chondrocyte differentiation and plays an important role in skeletogenesis and skeletal regeneration.     

大肠杆菌表达的重组人骨形成蛋白-7的复性

带有pBV221-hBMP-7的E．coli表达得到的rhBMP-7以不溶的包涵体形式存在,用高浓度的变性利溶解后,经过DEAE-FF纯化,得到高纯度的目的蛋白,达95％以上。分别用尿素浓度梯度降低法、添加促复性剂及人工分子伴侣法对蛋白质进行复性,并通过不同方法对复性结果进行比较。Western blot中辉度扫描结果显示,GSH／GSSG法样品二聚体／单体比例为79．5／20．5,尿素浓度梯度降低法二聚体／单体比例为73．6／26．4,表明GSH／GSSG法复性样品溶液上清中含较高比例的蛋白质二聚体。根据不同复性样品对NIH3T3细胞ALP活性影响大小的比较结果,氧化还原剂最有助于二聚体的形成,蛋白质活性最高。     

Crystal structure of human bone morphogenetic protein-2 at 2.7 A resolution

Homodimeric bone morphogenetic protein-2 (BMP-2) is a member of the transforming growth factor beta (TGF-beta) superfamily that induces bone formation and regeneration, and determines important steps during early stages of embryonic development in vertebrates and non-vertebrates. BMP-2 can interact with two types of receptor chains, as well as with proteins of the extracellular matrix and several regulatory proteins. We report here the crystal structure of human BMP-2 determined by molecular replacement and refined to an R-value of 24.2 % at 2.7 A resolution. A common scaffold of BMP-2, BMP-7 and the TGF-betas, i.e. the cystine-knot motif and two finger-like double-stranded beta-sheets, can be superimposed with r. m.s. deviations of around 1 A. In contrast to the TGF-betas, the structure of BMP-2 shows differences in the flexibility of the N terminus and the orientation of the central alpha-helix as well as two external loops at the fingertips with respect to the scaffold. This is also known from the BMP-7 model. Small secondary structure elements in the loop regions of BMP-2 and BMP-7 seem to be specific for the respective BMP-subgroup. Two identical helix-finger clefts and two distinct cavities located around the central 2-fold axis of the dimer show characteristic shapes, polarity and surface charges. The possible function of these specific features in the interaction of BMP-2 with its binding partners is discussed.     

人骨形态发生蛋白-2重组腺病毒的构建与制备

将人BMP-2的编码区cDNA克隆至穿梭载体pShuttle,以PI-SceI和I-CeuI切下含BMP-2编码区cDNA的片断,在体外与PI-SceI/I-CeuI切开的腺病毒DNA连接,构建重组有BMP-2全长编码区基因的腺病毒DNA,PCR鉴定正确后,经PacI酶切线性化,在脂质体介导下转染HEK293细胞,反复冻融制备重组腺病毒,空斑形成试验测定病毒滴度约为7.5×106～1.5×107pfu/ml。以BMP-2重组腺病毒感染体外培养的小鼠成肌细胞C2C12,Westernblot检测证实有BMP-2表达。     

Heparin potentiates the in vivo ectopic bone formation induced by bone morphogenetic protein-2

Although bone morphogenetic proteins (BMPs) are clinically useful for bone regeneration, large amounts are required to induce new bone formation in monkeys and humans. We found recently that heparin stimulates BMP activity in vitro (Takada, T., Katagiri, T., Ifuku, M., Morimura, N., Kobayashi, M., Hasegawa, K., Ogamo, A., and Kamijo, R. (2003) J. Biol. Chem. 278, 43229-43235). In the present study, we examined whether heparin enhances bone formation induced by BMPs in vivo and attempted to determine the molecular mechanism by which heparin stimulates BMP activity using C2C12 myoblasts. Heparin enhanced BMP-2-induced gene expression and Smad1/5/8 phosphorylation at 24 h and thereafter, although not within 12 h. Heparitinase treatment did not affect the response of cells to BMP-2. In the presence of heparin, degradation of BMP-2 was blocked, and the half-life of BMP-2 in the culture medium was prolonged by nearly 20-fold. Although noggin mRNA was induced by BMP-2 within 1 h regardless of the presence of heparin, noggin failed to inhibit BMP-2 activity in the presence of heparin. Furthermore, simultaneous administration of BMP-2 and heparin in vivo dose-dependently induced larger amounts of mineralized bone tissue compared with BMP-2 alone. These findings clearly indicate that heparin enhances BMP-induced osteoblast differentiation not only in vitro but also in vivo. This study indicates that heparin enhances BMP-induced osteoblast differentiation in vitro and in vivo by protecting BMPs from degradation and inhibition by BMP antagonists.     

Effect of elcatonin on osteoinduction by recombinant human bone morphogenetic protein-2

To evaluate the effect of elcatonin on osteoinduction by recombinant human bone morphogenetic protein-2 (rhBMP-2), 5 microg of rhBMP-2 was implanted into intramuscular sites of rats. For 14 days after the implantation, elcatonin was administered intraperitoneally with total dosage of 80 U, 8 U, and 0.8 U, respectively. For the control group, only physiological saline was administered. At 21 days after implantation, the area of the oval shadow in the radiologic findings depended on the elcatonin dose and the amount of trabecular bone and the number of osteoblasts observed in the histologic findings depended on the dosage of elcatonin. The values of ALP activity and Ca content also showed an elcatonin dose dependency. These results suggested that elcatonin is effective in enhancing osteoinduction by rhBMP-2 within the dose range of this study, and that elcatonin has an anabolic effect on osteoblasts in addition to an antiresorptive effect.     

Effects of bone morphogenetic protein-2 on human neonatal calvaria cell differentiation

Bone morphogenetic proteins (BMPs) are factors that promote osteoblastic cell differentiation and osteogenesis. It is unknown whether BMPs may act on human osteoblastic cells by increasing immature cell growth and/or differentiation. We investigated the short- and long-term effects of recombinant human (rh)BMP-2 on cell growth and osteoblast phenotype in a new model of human neonatal pre-osteoblastic calvaria cells (HNC). In short-term culture, rhBMP-2 (20-100 ng/ml) inhibited DNA synthesis and increased alkaline phosphatase (ALP) activity without affecting osteocalcin (OC) production. When cultured for 3 weeks in the presence of ascorbic acid and inorganic phosphate to induce cell differentiation, HNC cells initially proliferated, type 1 collagen mRNA and protein levels rose, and then decreased, whereas OC mRNA and protein levels, and calcium accumulation into the extracellular matrix increased at 2 to 3 weeks. A transient treatment with rhBMP-2 (50 ng/ml) for 1 to 7 days which affected immature HNC cells, decreased cell growth, increased ALP activity and mRNA, and induced cells to express ALP, osteopontin, and OC at 7 days, as shown by immunocytochemistry. At 2 to 3 weeks, matrix mineralization was markedly increased despite cessation of treatment, and although OC and Col 1 mRNA and protein levels were not changed. A continuous treatment with rhBMP-2 for 3 weeks which affected immature and mature cells reduced cell growth, increased ALP activity and mRNA at 1 week and increased OC mRNA and protein levels and calcium content in the matrix at 3 weeks, indicating complete osteoblast differentiation. These results indicate that the differentiating effects of BMP-2 on human neonatal calvaria are dependent on duration of exposure. Although long-term exposure led to complete differentiation of OC-synthesizing osteoblasts, the primary effect of rhBMP-2 was to promote osteoblast marker expression in immature cells, which was sufficient to induce optimal matrix mineralization independently of cell growth and type 1 collagen expression.     

Hypertrophy is induced during the in vitro chondrogenic differentiation of human mesenchymal stem cells by bone morphogenetic protein-2 and bone morphogenetic protein-4 gene transfer

Introduction  

The present study compares bone morphogenetic protein (BMP)-4 and BMP-2 gene transfer as agents of chondrogenesis and hypertrophy in human primary mesenchymal stem cells (MSCs) maintained as pellet cultures.     

Computational analysis on conformational dynamics of bone morphogenetic protein-2 (BMP-2)

BMP-2 is widely used for bone regeneration because of its ability to induce osteoblast differentiation and proliferation. The pharmaceutical application of BMP-2 as bone implant makes the studies on stability and conformational dynamics very relevant as proteins are functional only in their native three-dimensional state. Knowing the factors affecting BMP-2 structure becomes essential for designing bone implants activated by BMP-2. In order to explore the influence of temperature and hydration on protein conformation, we have performed the molecular dynamics (MD) simulations at the time scale of 100 ns with two different force fields. We have examined the dynamic behaviour of BMP-2 monomer and dimer in aqueous medium as well as in vacuum at four different temperatures (300, 350, 400 and 450 K). MD simulation of BMP-2 monomer and dimer in water and vacuum environments shows the major contribution of water in structure stabilization. Temperature of the system affects the secondary structure differently in case of monomer and dimer simulation and the dynamics also depends on the environment viz. vacuum and aqueous. Vacuum simulations show very early loss of the major secondary structure content. On the other hand, BMP-2 monomer and dimer in aqueous environment show the unfolding of α-helix with increasing temperature. This unfolded α-helix is converted into β-sheet at 400 K in monomer of BMP-2. Contrary to this, we did not observe β-sheet formation in dimer BMP-2 even at 450 K indicating that monomers are more aggregation prone entity as compared to dimers of BMP-2.     

重组骨形态发生蛋白-7在骨损伤疾病治疗中的研究进展

骨形态发生蛋白-7(BMP-7)是具有强诱骨活性的蛋白质因子,已通过基因工程技术在体外得到表达,较长时间以来不断被应用于骨损伤疾病的研究,得到了确切的治疗效果。通过载体将BMP-7基因转入真核细胞,与生物聚合载体复合后植入体内,能表达并分泌活性的BMP-7,诱导骨细胞的生成,促进骨组织的修复,成为一种新的有效的治疗手段。     

Osteoinduction by bone morphogenetic protein-2 via adenoviral vector under transient immunosuppression

To examine the effectiveness of gene transfer of bone morphogenetic protein (BMP)-2 in vivo, we evaluated osteoinduction by an adenoviral vector, AxCAOBMP-2, under transient immunosuppression with an immunosuppression drug (cyclophosphamide), which was given at a dose of 125 mg/kg intraperitoneally the day before vector injection. Twenty-five microliters of AxCAOBMP-2 (8.75 x 10(8) pfu, Group I) and AxCALacZ (1.75 x 10(8) pfu, control group) and 5 microliter of AxCAOBMP-2 (1.75 x 10(8) pfu, Group II) were injected into a right calf muscle. On day 21, induced bone in each group was investigated radiologically, histologically, and biochemically. The finding of osteoinduction was only seen in the AxCAOBMP-2-treated groups with immunosuppression. The activity of osteoinduction in Group I was higher than that in Group II. These results suggest that gene therapy with AxCAOBMP-2 under transient immunosuppression may be useful for bone reconstruction.     

Opposing effects by glucocorticoid and bone morphogenetic protein-2 in fetal rat bone cell cultures

Glucocorticoid in excess produces bone loss in vivo. Consistent with this, it reduces the stimulatory effect of transforming growth factor β (TGF-β) on collagen synthesis in osteoblast-enriched cultures in vitro, where it also suppresses TGF-β binding to its type I receptors. Analogous studies with bone morphogenetic protein-2 (BMP-2) show directly opposite results. These findings prompted us to assess the effect of glucocorticoid on BMP-2 activity in cultured bone cells, and whether either agent had a dominant influence on TGF-β binding or function. BMP-2 activity was retained in part in osteoblast-enriched cultures pre-treated or co-treated with cortisol, and was fully evident when glucocorticoid exposure followed BMP-2 treatment. In addition, BMP-2 suppressed the effects of cortisol on TGF-β activity, on TGF-β binding, and on gene promoter activity directed by a glucocorticoid sensitive transfection construct. While BMP-2 also alters the function of less-differentiated bone cells, it only minimally prevented cortisol activity in these cultures. Our studies indicate that BMP-2 can oppose certain effects by cortisol on differentiated osteoblasts, and may reveal useful ways to diminish glucocorticoid-dependent bone wasting. J. Cell. Biochem. 67:528–540, 1997. © 1997 Wiley-Liss, Inc.