Golgi apparatus casein kinase phosphorylates bioactive Ser-6 of bone morphogenetic protein 15 and growth and differentiation factor 9

Bone morphogenetic protein-15 (BMP-15) and growth and differentiation factor-9 (GDF-9) are oocyte-secreted factors that play essential roles in human folliculogenesis and ovulation. Their bioactivity is tightly regulated through phosphorylation, likely to occur within the Golgi apparatus of the secretory pathway. Here we show that Golgi apparatus casein kinase (G-CK) catalyzes the phosphorylation of rhBMP-15 and rhGDF-9. rhBMP-15, in particular, is an excellent substrate for G-CK. In each protein a single residue is phosphorylated by G-CK, corresponding to the serine residue at the sixth position of the mature region of both rhBMP-15 and rhGDF-9, whose phosphorylation is required for biological activity.     

Expression and purification of recombinant human bone morphogenetic protein-7 (rhBMP-7) in <Emphasis Type="Italic">Bacillus subtilis</Emphasis>

The polypeptide representing the mature part of human bone morphogenetic protein-7 (BMP-7) was cloned and efficiently expressed in Bacillus subtilis. Recombinant B. subtilis had a clear band for rhBMP-7, a homodimeric protein with an apparent molecular weight of 15.4 kDa and produced 350 pg rhBMP-7/mL of culture medium. The extracellular and intracellular rhBMP-7 was purified in two steps using a fast performance liquid chromatography (FPLC) system with an ion-exchange column and a gel filtration column. The extracellular rhBMP-7 had a purity of 57.1% and a yield of 58.8%, while the purity of the intracellular rhBMP-7 was 36.2% with a yield of 51.4%. The rhBMP-7 produced in this work also stimulated alkaline phosphatase (ALP) activity in a dose-dependent manner, i.e. 2.5- and 8.9-fold at 100 and 300 ng rhBMP-7/mL, respectively, and showed intact biological activity.     

大肠杆菌中高效表达rhBMP-4的探讨及初步活性测定

目的 在大肠杆菌中表达具有生物活性的rhBMP-4。方法 在不改变氨基酸序列的前提下,以全基因合成的方式对人BMP-4成熟肽基因全长进行定点突变,将之重组入pET-3c表达载体并转化至大肠杆菌BL21(DE)plysS。IPTG诱导和包涵体复性后,利用C2C12细胞横向成骨细胞分化实验以及小鼠肌袋异位骨形成实验检测其活性。 结果 获得0.348 kb的BMP-4 DNA序列,表达的目的蛋白主要以包涵体的形式存在。经纯化及复性后,体内与体外的活性检测表明rhBMP-4有良好的诱骨生成活性。结论 该方案能够实现rhBMP-4在大肠杆菌中的高效表达。     

The primary structure of human tissue amyloid P component from a patient with primary idiopathic amyloidosis

The amino acid sequence of human tissue amyloid P component (AP) extracted by a modified method from the spleen of a patient with primary idiopathic amyloidosis was determined. AP is a glycoprotein composed of a pair of noncovalently bound pentameric discs with a subunit size of 23-25 kDa. Each subunit consists of 204 residues, a single disulfide bridge linking Cys 36 to Cys 95, and a carbohydrate moiety attached to Asn 32. The precursor of AP is the serum amyloid protein (SAP). The primary structure of AP presented here differs from the amino acid sequence of SAP previously reported, but is identical to the amino acid sequence of mature SAP deduced from the nucleotide sequence of complementary DNA clones. It shares 52% homology with the amended sequence of human C-reactive protein, an acute phase protein, and 68% homology with the Syrian hamster "female protein," another acute phase protein whose response is modulated by sex steroids. AP/SAP, C-reactive protein, and female protein belong to a family of plasma proteins called pentraxins and their considerable sequence homology is probably the result of gene duplication. Neither the physiological function of AP nor its possible pathological role in amyloidosis are yet known.     

Partial characterization of a 17 kDa protein of Clonorchis sinensis

A 17 kDa protein from Clonorchis sinensis adults was purified by a procedure including Sephacryl S-200 HR gel filtration and Q-Sepharose anion exchange chromatography. The protein was proved to be a cysteine protease as it showed hydrolytic activity toward Cbz-Phe-Arg-AMC in the presence of dithiothreitol and was inhibited by specific inhibitors such as iodoacetic acid or trans epoxy-succinly-L-leucyl-amido(4-guanidino) butane. The polyclonal antibody raised against the protein reacted to 17 kDa proteins of trematodes such as Paragonimus westermani, Fasciola hepatica, Opisthorchis viverrini, Gymnophalloides seoi, and Metagonimus yokogawai. The antibody recognized the 17 kDa and 16 kDa cysteine proteases purified from C. sinensis, P. westermani, and G. seoi as well. These results suggest that the 17 kDa protein may be a cysteine protease commonly present in trematodes.     

In Vivo Growth of Romanomermis culicivorax: Biochemical Changes During Parasitism

Biochemical analyses of total protein, lipid, carbohydrate, DNA, amino acid, and length, width, and dry weight measurements are reported for different stages of Romanomermis culicivorax cultured in the mosquito, Culex pipiens. The Bradford technique for assaying total protein was the most sensitive and reliable biochemical technique tested for assaying in vivo growth of R. culicivorax. Increases in total protein, lipid, carbohydrate, and dry weight during growth from preparasite to postparasite were greater than 6,900-fold for females and 2,300-fold for males. DNA increased 650-fold and 233-fold during development to female and male postparasites, respectively. The proportions of amino acids for preparasites were significantly different (P ≤ 0.01) from female and male postparasites for all amino acids tested, except methionine and tyrosine. Female and male postparasites were similar in protein, lipid, carbohydrate, DNA, and most amino acid proportions, but were significantly different in relative concentrations of serine, glycine, and alanine (P ≤ 0.01). Preliminary results suggest that the use of amino acid ratios from female postparasites improves the in vitro culture performance of R. culicivorax.     

Nucleotide sequence of cDNA clones encoding the complete ‘23 kDa’ and ‘16 kDa’ precursor proteins associated with the photosynthetic oxygen-evolving complex from spinach

We present the nucleotide sequences and derived amino acid sequences of cDNAs that encode the complete precursors of the extrinsic ‘23 kDa’ and ‘16 kDa’ polypeptides associated with the photosynthetic oxygen-evolving complex from spinach. The luminal proteins consist of 267/186 (precursor/mature 23 kDa protein) and 232/149 (16 kDa polypeptide) amino acid residues corresponding to molecular masses of 28.5/20.2 and 24.9/16.5 kDa, respectively. Secondary structure predictions disclose epitopes that are potential candidates for two-step processing of the precursors during import and intraorganelle routing as well as for calcium sequestering, chloride binding and subunit/subunit interaction.     

Insights from the analysis of a predicted model of gp63 in Leishmania donovani

Leishmaniasis is a protozoal disease of human that occurs in most parts of the world. By considering the progress of bioinformatics in molecular modeling, major surface glycoprotein of Leishmania donovani (gp63) structure was modeled using homology modeling with high accuracy based on the X-ray crystal structure of the Leishmania major gp63 as a template, and then analyzed 3D structure of gp63 which can reveal exact facts about its structure and interaction. The objective of this study was to find folding and three dimensional structure of the gp63 as potent antigen for human. In this project, we applied the theory of evolution method, including comparative modeling and threading. This study presented a simple protocol for rapid and precise finding 3D structure of gp63 and investigation of its structural properties. The translated amino acid sequence showed that Leishmania donovani gp63 contains 590 amino acids precursor protein consisting of an NH₂-terminal signal peptide of 39 amino acids for membrane targeting, a pro region of 48 amino acids, the mature protein of 478 amino acids containing glycosylation and putative catalytic sites, and a COOH-terminal signal peptide of 25 amino acids for GPI attachment. Based on our model, the protein consists of three domains: the N-terminal, central and C-terminal domains. Additionally, these results could guide future structure-function analyses of gp63 protein.     

Surface-induced conformational and functional changes of bone morphogenetic protein-2 adsorbed onto single-walled carbon nanotubes

Efficient immobilization of bone morphogenetic protein-2 (BMP-2) onto matrix is of crucial importance in the development of BMP-2-based bone tissue scaffold/implant. This often ties with precise control of desirable protein conformation and retention of protein activity. Recently, great attentions were paid to the regulation of protein conformation by tailoring the nanoscale surface properties. In this contribution, with hydrophilic COOH- and hydrophobic CH₃-terminated single-walled carbon nanotubes (SWNTs-COOH and SWNTs-CH₃) as models, we investigated the nanoscale interface-induced changes of adsorption dynamics, conformation, and bioactivity of recombinant human BMP-2 (rhBMP-2). Our data showed that SWNTs-COOH and SWNTs-CH₃ bound rapidly to and induced unfolding of rhBMP-2 molecules, which promoted their interactions with corresponding receptors on cell surface and thus enhanced their bioactivities. In contrast, rhBMP-2 showed stronger affinity to the COOH-terminated surface than that terminated with CH₃ groups, while better enhanced bioactivity on the SWNTs-CH₃ surfaces. After released from SWNTs, the unfolded rhBMP-2 refolded and their activities from SWNTs-COOH and SWNTs-CH₃ were reduced to 90% and 70% of the native rhBMP-2, respectively. Based on these results obtained, a model of the binding characteristics of rhBMP-2 onto SWNTs with different chemistry is presented. This study demonstrates the possibility of simple tailor-made nanoscale chemical surfaces to modulate the binding, conformation and bioactivity of BMP-2, allowing fabrication of BMP-2-based bone tissue scaffolds with high osteoinductivity and low BMP-2 dosage.     

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.     

Covalent Binding of BMP-2 on Surfaces Using a Self-assembled Monolayer Approach

Bone morphogenetic protein 2 (BMP-2) is a growth factor embedded in the extracellular matrix of bone tissue. BMP-2 acts as trigger of mesenchymal cell differentiation into osteoblasts, thus stimulating healing and de novo bone formation. The clinical use of recombinant human BMP-2 (rhBMP-2) in conjunction with scaffolds has raised recent controversies, based on the mode of presentation and the amount to be delivered. The protocol presented here provides a simple and efficient way to deliver BMP-2 for in vitro studies on cells. We describe how to form a self-assembled monolayer consisting of a heterobifunctional linker, and show the subsequent binding step to obtain covalent immobilization of rhBMP-2. With this approach it is possible to achieve a sustained presentation of BMP-2 while maintaining the biological activity of the protein. In fact, the surface immobilization of BMP-2 allows targeted investigations by preventing unspecific adsorption, while reducing the amount of growth factor and, most notably, hindering uncontrolled release from the surface. Both short- and long-term signaling events triggered by BMP-2 are taking place when cells are exposed to surfaces presenting covalently immobilized rhBMP-2, making this approach suitable for in vitro studies on cell responses to BMP-2 stimulation.     

重组人骨形态发生蛋白-6的表达、纯化及其活性分析

利用RT-PCR从人胎盘组织中获取BMP-6成熟肽的cDNA 片段,并克隆到表达载体pET-15b中, 构建hBMP_6成熟肽的非融合蛋白表达质粒pET-BMP6,转化E.coli BL21（DE3）。IPTG 诱导4h后,工程菌高表达rhBMP-6成熟肽,在SDS-PAGE上出现预期的新蛋白带(≈15kD), 约占菌体总蛋白的10%,表达产物以包涵体形式存在。分离和纯化的包涵体溶解于8 mol/L尿素,在变性溶解状态下经阳离子交换层析,得到目的蛋白纯度达95%以上。再经稀释复性后,约80%的rhBMP-6形成同源二聚体。体外活性分析结果显示：rhBMP-6可以提高C3H10T1/2 细胞碱性磷酸酶活性及促进I型胶原、Osterix（Osx）和骨钙素（Osteocalcin）等成骨细胞表型转化标记基因mRNA的表达,证明制备的rhBMP_6具有诱导非骨源性细胞分化成为成骨细胞的作用。     

Analysis of Cationic Amino Acid Transport Activity in Canine Lens Epithelial Cells

Cationic amino acid transport activity in a canine lens epithelial cells (LEC) line was investigated. The transporter activity of arginine was 0.424 ± 0.047 nmol/mg protein min, while the presence of N-ethylmaleimide, an inhibitor of the canine cationic amino acid transporter (CAT), reduced transport activity by 30%. A full-length cDNA sequence of canine CAT1 was 2558 bp long and was predicted to encode the 629 amino acid polypeptides. The deduced amino acid sequence of canine CAT1 showed similarities of 92.1% and 88.6% to those of the human and mouse, respectively. Western blot analysis detected a band at 70 kDa in a membrane protein sample of LEC. RT-PCR analysis confirmed that CAT1 was ubiquitously detected in all tissues examined.     

Orphan macrodomain protein (human C6orf130) is an O-acyl-ADP-ribose deacylase: solution structure and catalytic properties

Post-translational modification of proteins/histones by lysine acylation has profound effects on the physiological function of modified proteins. Deacylation by NAD(+)-dependent sirtuin reactions yields as a product O-acyl-ADP-ribose, which has been implicated as a signaling molecule in modulating cellular processes. Macrodomain-containing proteins are reported to bind NAD(+)-derived metabolites. Here, we describe the structure and function of an orphan macrodomain protein, human C6orf130. This unique 17-kDa protein is a stand-alone macrodomain protein that occupies a distinct branch in the phylogenic tree. We demonstrate that C6orf130 catalyzes the efficient deacylation of O-acetyl-ADP-ribose, O-propionyl-ADP-ribose, and O-butyryl-ADP-ribose to produce ADP-ribose (ADPr) and acetate, propionate, and butyrate, respectively. Using NMR spectroscopy, we solved the structure of C6orf130 in the presence and absence of ADPr. The structures showed a canonical fold with a deep ligand (ADPr)-binding cleft. Structural comparisons of apo-C6orf130 and the ADPr-C6orf130 complex revealed fluctuations of the β(5)-α(4) loop that covers the bound ADPr, suggesting that the β(5)-α(4) loop functions as a gate to sequester substrate and offer flexibility to accommodate alternative substrates. The ADPr-C6orf130 complex identified amino acid residues involved in substrate binding and suggested residues that function in catalysis. Site-specific mutagenesis and steady-state kinetic analyses revealed two critical catalytic residues, Ser-35 and Asp-125. We propose a catalytic mechanism for deacylation of O-acyl-ADP-ribose by C6orf130 and discuss the biological implications in the context of reversible protein acylation at lysine residues.     

Screening and Molecular Cloning of a Protective Antigen from the Midgut of Haemaphysalis longicornis

Vaccination is considered a promising alternative for controlling tick infestations. Haemaphysalis longicornis midgut proteins separated by SDS-PAGE and transferred to polyvinylidene difluoride (PVDF) membrane were screened for protective value against bites. The western blot demonstrated the immunogenicity of 92 kDa protein (P92). The analysis of the P92 amino acid sequence by LC-MS/MS indicated that it was a H. longicornis paramyosin (Hl-Pmy). The full lenghth cDNA of Hl-Pmy was obtained by rapid amplification of cDNA ends (RACE) which consisted of 2,783 bp with a 161 bp 3'' untranslated region. Sequence alignment of tick paramyosin (Pmy) showed that Hl-Pmy shared a high level of conservation among ticks. Comparison with the protective epitope sequence of other invertebrate Pmy, it was calculated that the protective epitope of Hl-Pmy was a peptide (LEEAEGSSETVVEMNKKRDTE) named LEE, which was close to the N-terminal of Hl-Pmy protein. The secondary structure analysis suggested that LEE had non-helical segments within an α-helical structure. These results provide the basis for developing a vaccine against biting H. longicornis ticks.     

Luminescence enhancement of the catalytic 19 kDa protein (KAZ) of Oplophorus luciferase by three amino acid substitutions

To characterize the luminescence properties of nanoKAZ, a 16 amino acid substituted mutant of the catalytic 19 kDa protein (KAZ) of Oplophorus luciferase, the effects of each mutated amino acid were investigated by site-specific mutagenesis. All 16 single substituted KAZ mutants were expressed in Escherichia coli cells and their secretory expressions in CHO-K1 cells were also examined using the signal peptide sequence of Gaussia luciferase. Luminescence activity of KAZ was significantly enhanced by single amino acid substitutions at V44I, A54I, or Y138I. Further, the triple mutant KAZ-V44I/A54I/Y138I, named eKAZ, was prepared and these substitutions synergistically enhanced luminescence activity, showing 66-fold higher activity than wild-KAZ and also 7-fold higher activity than nanoKAZ using coelenterazine as a substrate. Substrate specificity of eKAZ for C2- and/or C6-modified coelenterazine analogues was different from that of nanoKAZ, indicating that three amino acid substitutions may be responsible for the substrate recognition of coelenterazine to increase luminescence activity. In contrast, these substitutions did not stimulate protein secretion from CHO-K1 cells, suggesting that the folded-protein structure of KAZ might be different from that of nanoKAZ.     

Production of the recombinant human bone morphogenetic protein-2 in Escherichia coli and testing of its biological activity in vitro and in vivo

Bone morphogenetic protein-2 (rhBMP-2) represents the osteoinductive protein factor which plays a dominant role in growth and regeneration of a bone tissue. In clinical practice the bone grafting materials on the basis of rhBMP-2 are widely applied; the Russian analogues of similar materials are not produced. The fragment of the bmp2gene coding for a mature protein was cloned in Escherichia coli. The effective overproducing strain of rhBMP-2 was created on a basis of the E. coli BL21 (DE3). The rhBMP-2 production was about 25% of total cell protein. The biologically active dimeric form of rhBMP-2 was obtained by isolation and purification of protein from inclusion bodies with subsequent refolding. The rhBMP-2 sample with more than 80% of the dimeric form was obtained, which is able to interact with specific antibodies to BMP-2. Biological activity of the received rhBMP-2 samples was shown in the in vitro experiments by induction of alkaline phosphatase synthesis in C2C12 and C3H10T1/2 cell cultures. On model of the ectopic osteogenesis it was shown that received rhBMP-2 possesses biological activity in vivo, causing tissue calcification in the place of an injection. The protein activity in vivo depends on way of protein introduction and characteristics of protein sample: rhBMP-2 may be introduced in an acid or basic buffer solution, with or without the carrier. The offered method of rhBMP-2 isolation and purification results in increasing common protein yield as well as the maintenance of biologically active dimeric form in comparison with the analogues described in the literature.