Efficient expression and purification of recombinant human m-calpain using an Escherichia coli expression system at low temperature

Calpain belongs to the superfamily of Ca(2+)-regulated cysteine proteases, which are indispensable to the regulation of various cellular functions. Of the 15 mammalian calpain isoforms, μ- and m-calpains are the best characterized. Both μ- and m-calpain are ubiquitously expressed and exist as heterodimers, containing a distinct 80-kDa catalytic subunit (CAPN1 and CAPN2, respectively) and the common, 30-kDa regulatory subunit (CAPNS1). To date, various expression systems have been developed for producing recombinant calpains for use in structural and physiological studies, however Escherichia coli systems have proven incompatible with large-scale preparation of calpain, with the exception of rat m-calpain. Here, we have established a highly efficient method to purify active recombinant human m-calpain using an E. coli expression system at low temperature (22°C). This was achieved by co-expressing CAPN2 with a C-terminal histidine-tag, and CAPNS1, lacking the first Gly-repeated region at the N-terminal. After three sequential passes through a chromatographic column, ~5 mg of human m-calpain was homogenously purified from 1 l of E. coli culture. Proteins were stable for several months. This is the first report of efficient, large-scale purification of recombinant human m-calpain using an E. coli expression system.     

Targeted suppression of μ‐calpain and caspase 9 expression and its effect on caspase 3 and caspase 7 in satellite cells of Korean Hanwoo cattle

The calpains play an important role in cell death and cell signalling. Caspases catalyse wholesale destruction of cellular proteins which is a major cause of cellular death. The current study looks at the function of μ‐calpain and caspase 9, using RNAi (RNA interference)‐mediated silencing, and to observe the mRNA expression level of caspase genes during satellite cell growth. The satellite cells were treated with siRNA (small interfering RNA) of μ‐calpain and caspase 9 separately. There was reduction of 16 and 24% in CAPN1 (calpain1)‐siRNA2 and CAPN1‐siRNA3 transfected cells respectively, whereas it was 60 and 56% in CAPN1‐siRNA1 and CAPN1‐siRNA4 transfected cells respectively. CAPN1‐siRNA4 and CAPN1‐siRNA1 treated cells showed more reduction in caspase 3 and 7 gene expression. CARD9 (caspase recruitment domain 9)‐siRNA1 and CARD9‐siRNA2‐treated cells showed reduction of 40 and 49% respectively. CARD9‐siRNA1 and CARD9‐siRNA2 showed an increase in caspase 3 gene expression, whereas CARD9‐siRNA2 showed reduction in caspase 7 gene expression. These results suggest a strong cross‐talk between μ‐calpain and the caspase enzyme systems. Suppression of target genes, such as μ‐calpain and caspase 9, might have genuine potential in the treatment of skeletal muscle atrophy.     

High-Level Expression and Purification of a Recombinant Human α-1,3-Fucosyltransferase in Baculovirus-Infected Insect Cells

A human α-1,3-fucosyltransferase (Fuc-TVII) was expressed by recombinant baculovirus-infected insect Sf9 cells as a secretory fusion protein. The fusion protein consisted of the human granulocyte colony-stimulating factor signal peptide followed by an IgG-binding domain of protein A, a Fuc-TVI-derived peptide, and the putative catalytic domain of Fuc-TVII. The signal peptide was correctly cleaved and the recombinant Fuc-TVII was secreted into the culture medium at a concentration of 10 μg/ml. The recombinant Fuc-TVII could be highly purified in a single-step purification procedure, i.e., IgG–Sepharose column chromatography. The enzymatic properties of the Sf9-produced Fuc-TVII were compared with the properties of that expressed by a human B-cell line, Namalwa KJM-1, transfected with an episomal plasmid carrying the fusion Fuc-TVII cDNA. Both recombinant proteins showed α-1,3-fucosyltransferase activity toward a type II oligosaccharide with a terminal α-2,3-linked sialic acid among various acceptors. The apparentK_mvalues of Sf9-produced Fuc-TVII for GDP-fucose and its acceptor substrate were slightly lower than those of the Fuc-TVII produced by Namalwa KJM-1 cells. Sf9-produced Fuc-TVII has N-linked carbohydrate chains whose molecular weights are lower than those linked to Namalwa KJM-1-produced Fuc-TVII. This difference in carbohydrate structure hardly affects the thermal stability of Fuc-TVII. The baculovirus expression system is available for high-level expression of stable and enzymatically active secretory Fuc-TVII.     

抗黄曲霉毒素B1单链抗体在Sf9昆虫细胞中的表达与性质分析

目的:在原核表达抗黄曲霉毒素B1(aflatoxin B1,AFB1)单链抗体(single chain Fv fragment,scFv)研究的基础上,为进一步了解和提高抗AFB1 scFv的活性,利用Sf9昆虫细胞表达抗AFB1 scFv,并对其活性进行探索研究。方法:构建pFastBac 1-scFv2E6VHVL重组质粒,将重组质粒转化Escherichia coli (E. coli) DH10Bac细胞,进行蓝白斑筛选,挑取阳性克隆。提取相应的重组杆状病毒穿梭载体Bacmid侵染Sf9昆虫细胞,表达scFv,利用镍亲和层析法纯化scFv,并以ELISA检测scFv活性。结果:蓝白斑筛选后,经菌落PCR和测序验证挑取的白斑阳性单克隆含有正确的单链抗体基因。提取相应的重组杆状病毒穿梭载体Bacmid侵染Sf9昆虫细胞,通过Western blot检测得知抗AFB1 scFv在Sf9昆虫细胞中成功表达。AFB1对scFv的抑制中浓度(IC₅₀)为30μg/ml。结论:与E. coli BL21(DE3)表达系统相比,scFv灵敏度转好,但仍有较大提升空间。     

人视黄醇结合蛋白4在杆状病毒系统中的表达及其多克隆抗体制备

旨在利用杆状病毒系统表达、制备人视黄醇结合蛋白(RBP4)并检测其免疫原性。将人RBP4基因片段及信号肽SS64片段亚克隆到杆状病毒转移载体pFastBac-dual(pFBd)中,获得相应的重组转移质粒;转化大肠杆菌菌株DH10bac,转座后经筛选获得重组穿梭质粒rbacmid,将重组穿梭质粒转染孔板培养的Sf9细胞,获得含人RBP4表达框的重组杆状病毒,经过扩增获得毒种。毒种感染对数生长期的Sf9细胞并表达人RBP4蛋白(I-RBP4),通过SDS-PAGE和Western blotting对表达蛋白进行检测和鉴定。用毒种感染悬浮培养的Sf9细胞制备一批RBP4蛋白,完成SDS、Western blotting的检测及少量的多抗制备。纯化重组蛋白并与E.coli重组人RBP4(E-RBP4)分别免疫家兔。实验结果,酶切鉴定及测序证实重组转移质粒构建正确;成功构建重组RBP4-bacmid;人RBP4蛋白在昆虫细胞获得高效表达。表达的RBP4蛋白可以分泌到培养基中,分子量约为23 kDa,经过计算表达量为100 mg/L;纯化蛋白免疫兔子制备了多抗血清,血清滴度为1∶100 000,高于原核表达的抗体滴度(1∶10 000),与人体提纯蛋白制备的抗体滴度相近。杆状病毒系统高效表达了人的RBP4蛋白,具有较好的抗原性,并获得高亲和力的抗血清,为下一步的人血RBP4检测试剂盒的制备打下了坚实的基础。     

Expression, purification, and properties of the plasma membrane Ca2+ pump and of its N-terminally truncated 105-kDa fragment.

Isoform 4b of the human plasma membrane Ca2+ pump was expressed in COS cells and in the baculovirus system (Sf9 cells). A 105-kDa pump fragment lacking the first two transmembrane domains and the so-called transduction domain was also expressed. The expression level was 2-4 times the background in COS cells and at least 7 times in the baculovirus system. Tests on membranes from both systems showed that the expressed pump was active. The expressed pump and the 105-kDa fragment were isolated from Sf9 cell membranes by calmodulin affinity chromatography. The pump had Ca(2+)-dependent ATPase activity with a calmodulin stimulation factor of 3, formed a La(3+)-stabilized phosphoenzyme, and had a KM (Ca2+) in the presence of calmodulin of about 1 microM. The 105-kDa fragment, assayed by the phosphoenzyme test on COS or Sf9 cell membranes or by ATPase measurements after isolation from Sf9 cells, proved inactive. Laser confocal microscopy on Sf9 cells showed that both the pump and the 105-kDa fragment were apparently associated with the plasma membrane. The expressed pump in COS and Sf9 cells and the endogenous pump in a number of other cell lines had a slower gel mobility (i.e. a higher apparent molecular mass) than the erythrocyte pump.     

庚型肝炎病毒包膜糖蛋白E2基因在昆虫细胞中的表达

用ＰＣＲ扩增出ＨＧＶＥ２全基因,克隆进杆状病毒表达载体ｐＦＡＳＴＢＡＣＨＴａ中,构建成重组转座载体ｐＦＡＳＴＢＡＣＥ２,转化ＤＨ１０ＢＡＣ大肠杆菌感受态细胞,筛选阳性菌落,抽提大分子质粒ＤＮＡ,获得含ＨＧＶＥ２基因的重组杆状病毒穿梭载体,转染昆虫草地夜蛾Ｓｆ９细胞,出现细胞病变后,收集含有重组病毒颗粒的培养上清,重新感染草地夜蛾Ｓｆ９单层细胞及甜菜夜蛾幼虫,分别收集Ｓｆ９细胞和甜菜夜蛾幼虫体内的血淋巴细胞,进行１２％ＳＤＳ聚丙烯酰胺凝胶电泳,可见表达的融合蛋白带,经亲和层析进行蛋白纯化,用ＥＬＩＳＡ方法检测各类血清标本,初步研究ＨＧＶＥ２糖蛋白的抗原性     

Overproduction and large-scale purification of the human poly(ADP-ribose) polymerase using a baculovirus expression system.

We have overproduced the full-length human poly(ADP-ribose) polymerase (PARP) in Spodoptera frugiperda (Sf9) cells using a baculovirus expression vector system. Approx. 20 mg of purified protein from 5 x 10(8) Sf9 cells were obtained by a simple three-step purification procedure including 3-aminobenzamide affinity chromatography. The recombinant protein (rePARP), which migrates as a unique 116-kDa band on SDS-polyacrylamide gels, was identified as PARP by Western blotting using either polyclonal or monoclonal antibodies raised against the purified human and calf thymus enzymes. Furthermore, rePARP is a functional protein, as demonstrated by its ability to specifically bind Zn2+ and DNA, and to recognize single-strand breaks in DNA. The purified enzyme has the same affinity for NAD+ and turnover number as the human placental PARP. Thus, rePARP produced in insect cells is biologically active and suitable for functional analysis. The reproducibility of the overproduction and the simplicity of the purification protocol, as well as the yield of the produced protein, should greatly facilitate physicochemical and structural studies.     

Expression of human, mouse, and rat m-calpains in Escherichia coli and in murine fibroblasts

The two best known calpains, micro- and m-calpain, are Ca(2+)-dependent cysteine proteases found in all mammalian tissues. They are probably involved in many Ca(2+)-linked signal pathways, although the details are not yet clear. The enzymes are heterodimers of a specific large subunit (micro-80k or m-80k) and a common small subunit (28k). Recombinant calpains have been obtained by co-expression of large and small subunits in Escherichia coli and in Sf9 cells, with variable success. Expression with the 28k subunit is very low, but is much higher with a C-terminal 21k fragment of this subunit. Rat m-calpain (m-80k/21k) is well expressed in E. coli but mouse m-calpain (m-80k/21k) is poorly expressed, even though the amino acid sequences of rat-m-80k and mouse-m-80k are 92% identical. It had also been reported that human m-calpain could be expressed in Sf9 cells but not in E. coli. To investigate these differences, hybrid rat/mouse and rat/human m-calpains were cloned and expressed in E. coli. It was shown that Ile-6 and Pro-127, which are specific to the mouse m-80k sequence, caused poor expression. High expression of human m-calpain in E. coli could be achieved by providing the correct Shine-Dalgarno ribosome binding site. The results provide a simple method to obtain approximately 10mg amounts of human m-calpain and a slightly modified mouse m-calpain. Expression of m-80k-EGFP fusions was also studied, both in E. coli and in mammalian cells, varying both the small subunit and the promoters. m-80k-EGFP alone was not active, but with 21k or 28k subunits was active in both cell types. The EGFP domain was partially cleaved during expression, releasing an active m-80k/21k calpain.     

Expression of human BK ion channels in Sf9 cells, their purification using metal affinity chromatography, and functional reconstitution into planar lipid bilayers

This report describes a procedure for purification of large conductance calcium-activated potassium (BK, maxi-K) channels using immobilised metal affinity chromatography (IMAC) under non-denaturing conditions. An amino-terminal histidine fusion tag was added to hSlo, the human BK channel, and expressed in Sf9 insect cells. Following IMAC purification and production of proteoliposomes, protein function was assessed electrophysiologically in planar bilayer lipid membranes. Single channel openings had conductances of 250-300 pS and were inhibited by paxilline, demonstrating that the BK channels remained functional following IMAC purification. This method to obtain functional human ion channels will be useful in assays to screen potential pharmaceuticals.     

Limb girdle muscular dystrophy in a sibling pair with a homozygous Ser606Leu mutation in the alternatively spliced IS2 region of calpain 3

Previous family studies revealed a large number of calpain 3 ( CAPN3 ) mutations that cause recessive forms of limb girdle muscular dystrophy (LGMD2A) with selective atrophy of the proximal limb muscles. Correlations between the nature and site of a particular mutation and its corresponding phenotype, however, can only be established from homozygous mutations, which are particularly rare in the alternatively spliced NS, IS1 and IS2 regions of CAPN3. Here we identified a sibling pair with LGMD2A-type muscular dystrophy caused by a homozygous Ser606Leu (S606L) substitution in the IS2 linker domain. Normal protein levels, unaltered myofibrillar targeting and conserved calcium-induced autocatalytic activity of the mutated protein could be demonstrated in muscle biopsies from one patient. Despite this inconspicuous modification of the IS2 linker between domains III and IV, both patients developed signs and symptoms of the disease within their second decade of life. The unexpected severity of the clinical manifestation points to the high relevance of the calpain 3-specific IS2 segment between domains III and IV. We conclude that the structural motif around the Ser606 residue represents an important functional site that may regulate the transient activation and limited proteolysis of calpain 3.     

Production of functional antibodies generated in a nonlytic insect cell expression system

A monoclonal antibody directed against the type 2 adenovirus (Ad2) penton base protein was cloned and expressed in Spodoptera frugiperda (Sf9) cells using a nonlytic vector system. The coding sequences for the immunoglobulin light and heavy chains were placed under the control of the Orgyia pseudotsugata multicapsid nucleopolyhedrosis virus immediate-early 2 (OpIE2) promoter. Transfected Sf9 cells continuously secreted the antibody which retained the ability to recognize both native and recombinant Ad2 penton base proteins. Bifunctional penton base antibodies were also generated by fusing a gene for a growth factor or a cytokine at the 3' end of the Ig constant heavy chain domain. The quantity and activity of recombinant antibodies generated in the nonlytic insect cell system could be determined relatively quickly compared to other expression systems. Moreover, these recombinant proteins were not subjected to proteolytic degradation as frequently occurs during baculovirus-mediated cell lysis and the levels of recombinant antibodies produced in the nonlytic system were comparable to those reported for cytolytic baculovirus vectors.     

Expression of porcine acid-labile subunit (pALS) of the 150-kilodalton ternary insulin-like growth factor complex and initial characterization of recombinant pALS protein

Acid-labile subunit (ALS) is a component of the 150-kDa insulin-like growth factor-binding protein-3 (IGFBP-3) complex, which, by sequestering the majority of IGFs-I and -II and thereby prolonging the half-life of them in plasma, serves as a circulating reservoir of IGFs in mammalian species. A pGEX-2T plasmid and a baculovirus expression constructs harboring a coding sequence for glutathione-S-transferase (GST)-porcine ALS (pALS) fusion protein were expressed in BL21(DE3) E. coli and Sf9 insect cells, respectively. The expressed protein was purified by glutathione or Ni-NTN affinity chromatography, followed by cleavage of the fusion protein using Factor Xa. In addition, pALS and hIGFBP-3 were also produced in small amounts in the Xenopus oocyte expression system which does not require any purification procedure. A 65-kDa pALS polypeptide was obtained following the prokaryotic expression and the enzymatic digestion, but biochemical characterization of this polypeptide was precluded because of an extremely low expression efficiency. The baculovirus as well as Xenopus-expressed pALS exhibited the expected molecular mass of 85 kDa which was reduced into 75 and 65 kDa following deglycosylation of Asn-linked carbohydrates by Endo-F glycosidase, indicating that the expressed pALS was properly glycosylated. Moreover, irrespective of the source of pALS, the recombinant pALS and hIGFBP-3 formed a 130-kDa binary complex which could be immunoprecipitated by anti-hIGFBP-3 antibodies. Collectively, results indicate that an authentic pALS protein can be produced by the current expression systems.     

Characterization and application of monoclonal antibodies against human endothelin B receptor expressed in insect cells

Endothelin B receptor (ET(B)R) is a G protein-coupled receptor that mediates a variety of signals by binding to vasoconstrictive peptides, endothelins. Monoclonal antibodies were prepared against human ET(B)R using the full-length protein expressed in Sf9 cells. Five typical monoclonal antibodies were characterized further for their recognition. The epitopes for the 2A5, 9A3 and 21A1 antibodies were mapped within the N-terminal extracellular sequences, V71-I85 and E27-Q41, respectively, which differ between the human and mouse ET(B)Rs. All of these antibodies labeled cell surface ET(B)R expressed in COS cells, suggesting that their recognition sites exist in the extracellular domain. In addition, the immobilized antibodies could purify ET(B)R expressed in Sf9 cells to the majority under mild conditions. Thus, immunization with the recombinant full-length membrane protein provides a strategy to produce monoclonal antibodies recognizing the native protein.     

Calpain facilitates actin reorganization during glucose-stimulated insulin secretion

Calpain-10 (CAPN10) has been identified as a diabetes susceptibility gene. Previous studies have shown that alterations in calpain activity alter both glucose uptake and insulin secretion. In this report, we investigated the role of calpain activity in the actin reorganization required for glucose-stimulated insulin secretion. In pancreatic INS-1 cells, acute exposure to a high glucose environment stimulated CAPN10 gene expression with a concomitant increase in calpain activity. However, high glucose did not significantly alter expression of the two major ubiquitously expressed calpain family members, CAPN1 and CAPN2. Furthermore, glucose stimulation resulted in the reorganization of actin and inhibition of calpain activity impaired this reorganization in INS-1 cells. Finally, we identified a 54 kDa isoform as the major CAPN10 isoform that associates with the actin cytoskeleton. Based on our findings, we propose that calpain plays a role in facilitating the actin reorganization required for glucose-stimulated insulin secretion in INS-1 cells.     

CAPN 8: isolation of a new mouse calpain-isoenzyme.

Recent molecular biological approaches indicate that calpain, also named CANP for calcium-activated neutral protease and originally characterized as an intracellular cytoplasmatic nonlysosomal cysteine protease that requires calcium ions for activity, constitutes a large superfamily consisting of ubiquitous and tissue specific homologues, which are widely distributed in cells of various organisms from human to fungus. Due to the increasing number of substrates along with the involvement of calpain isoenzymes in mammalian diseases, especially in malignancies, members of the calpain superfamily seem to be important biomodulators in physiological as well as pathological cell function. Here we report the characterisation of a new calpain, named CAPN 8 with a different C-terminal domain, implicating a putative new regulatory mechanism. Northern blot analysis revealed an ubiquitous expression with different RNA levels in all tissues examined. Highest levels were found in brain, kidney, and digestive tract, suggesting a specific regulatory function of CAPN 8 in these tissues.     

The multidrug resistance half-transporter ABCG2 is purified as a tetramer upon selective extraction from membranes

ABCG2 is a human membrane ATP-binding cassette half-transporter that hydrolyzes ATP to efflux a large number of chemotherapeutic agents. Several oligomeric states of ABCG2 from homodimers to dodecamers have been reported depending on the overexpression systems and/or the protocols used for purification. Here, we compared the oligomeric state of His₆-ABCG2 expressed in Sf9 insect cells and in human Flp-In-293/ABCG2 cells after solubilization in mild detergents. His₆-ABCG2 was purified through a new approach involving its specific recognition onto a functionalized lipid layer containing a Ni-NTA lipid. This approach allowed the purification of His-ABCG2 in presence of all solubilized membrane components that might be involved in the stabilisation of native oligomers and without requiring any additional washing or concentration passages. ABCG2 purified onto the NiNTA lipid surfaces were directly analyzed by electron microscopy and by biochemical assays. Altogether, our data are consistent with a tetrameric organization of ABCG2 when expressed in either heterologous Sf9 insect cells or in human homologous cells.     

Constitutive oligomerization of human D2 dopamine receptors expressed in Spodoptera frugiperda 9 (Sf9) and in HEK293 cells. Analysis using co-immunoprecipitation and time-resolved fluorescence resonance energy transfer.

Human D2Long (D2L) and D2Short (D2S) dopamine receptor isoforms were modified at their N-terminus by the addition of a human immunodeficiency virus (HIV) or a FLAG epitope tag. The receptors were then expressed in Spodoptera frugiperda 9 (Sf9) cells using the baculovirus system, and their oligomerization was investigated by means of co-immunoprecipitation and time-resolved fluorescence resonance energy transfer (FRET). [3H]Spiperone labelled D2 receptors in membranes prepared from Sf9 cells expressing epitope-tagged D2L or D2S receptors, with a pKd value of approximately 10. Co-immunoprecipitation using antibodies specific for the tags showed constitutive homo-oligomerization of D2L and D2S receptors in Sf9 cells. When the FLAG-tagged D2S and HIV-tagged D2L receptors were co-expressed, co-immunoprecipitation showed that the two isoforms can also form hetero-oligomers in Sf9 cells. Time-resolved FRET with europium and XL665-labelled antibodies was applied to whole Sf9 cells and to membranes from Sf9 cells expressing epitope-tagged D2 receptors. In both cases, constitutive homo-oligomers were revealed for D2L and D2S isoforms. Time-resolved FRET also revealed constitutive homo-oligomers in HEK293 cells expressing FLAG-tagged D2S receptors. The D2 receptor ligands dopamine, R-(-)propylnorapomorphine, and raclopride did not affect oligomerization of D2L and D2S in Sf9 and HEK293 cells. Human D2 dopamine receptors can therefore form constitutive oligomers in Sf9 cells and in HEK293 cells that can be detected by different approaches, and D2 oligomerization in these cells is not regulated by ligands.