Monomers and oligomers of the M2 muscarinic cholinergic receptor purified from Sf9 cells

G protein-coupled receptors are known to form oligomers. To probe the nature of such aggregates, as well as the role and prevalence of monomers, epitope-tagged forms of the M(2) muscarinic receptor have been isolated as oligomers and monomers from Sf9 cells. Membranes from cells coexpressing the c-Myc- and FLAG-tagged receptor were solubilized in digitonin-cholate, and the receptor was purified by successive passage through DEAE-Sepharose, the affinity resin 3-(2'-aminobenzhydryloxy)tropane (ABT)-Sepharose, and hydroxyapatite. Coimmunoprecipitation of the two epitopes indicated the presence of oligomers at each stage of the purification up to but not including the fraction eluted specifically from ABT-Sepharose. The affinity-purified receptor therefore appeared to be monomeric. The failure to detect coimmunoprecipitation was not due to an ineffective antibody, nor did the conditions of purification appear to promote disaggregation. Receptor at all stages of purification bound N-[(3)H]methylscopolamine and [(3)H]quinuclidinylbenzilate with high affinity, but the capacity of receptors that were not retained on ABT-Sepharose was only 4% of that expected from densitometry of western blots probed with an anti-M(2) antibody. Similarly low activity was found with oligomers isolated by successive passage of coexpressed receptor on anti-c-Myc and anti-FLAG immunoaffinity columns. M(2) muscarinic receptors therefore appear to coexist as active monomers and largely or wholly inactive oligomers in solubilized extracts of Sf9 cells. A different pattern emerged when coinfected cells were treated with quinuclidinylbenzilate prior to solubilization, in that ABT-purified receptors from those cells exhibited coimmunoprecipitation. Treatment with the antagonist therefore led to oligomers in which at least some of the constituent sites were active and were retained by ABT-Sepharose.     

Kinetic analysis of M2 muscarinic receptor activation of Gi in Sf9 insect cell membranes.

A steady-state kinetic mechanism describing the interaction of M(2) muscarinic acetylcholine receptors and the guanine nucleotide-binding protein G(i)alpha(2)beta(1)gamma(3) are presented. Data are consistent with two parallel pathways of agonist-promoted GTPase activity arising from receptor coupled to a single or multiple guanine nucleotide-binding proteins. An aspartate 103 to asparagine receptor mutation resulted in a receptor lacking the ability to catalyze the binding of guanosine-5'-O-(3-thiotriphosphate) or guanosine triphosphate hydrolysis by the G protein. An aspartate 69 to asparagine receptor mutant was able to catalyze agonist-specific guanine nucleotide exchange and GTPase activity. A threonine 187 to alanine receptor mutation resulted in a receptor that catalyzed guanine nucleotide exchange comparable with wild-type receptors but had reduced ability to stimulate GTP hydrolysis. A tyrosine 403 to phenylalanine receptor mutation resulted in an increase in agonist-promoted GTPAse activity compared with wild type. The observation that the threonine 187 and tyrosine 403 mutants promote guanine nucleotide exchange similarly to wild type but alter GTPase activity compared with wild type suggests that the effects of the mutations arise downstream from guanine nucleotide exchange and may result from changes in receptor-G protein dissociation.     

Amplification of the rat M2 muscarinic receptor gene by the polymerase chain reaction: functional expression of the M2 muscarinic receptor

A selective amplification of the coding sequence of the rat M2 muscarinic receptor gene was achieved by the polymerase chain reaction. The error rate of this amplification system under conditions specified was 1 nucleotide substitution in 841 base pairs. In vitro expression of this gene in murine fibroblasts (B82) via the eukaryotic expression vector, pH beta APr-1-neo, resulted in high level expression of specific [3H] (-)MQNB binding in transfected B82 cell lines. One of these clones, M2LKB2-2, showed a stable expression of [3H] (-)MQNB binding with a Kd value of 265 pM and a Bmax value of 411 +/- 50 fmol/10(6) cells. Cardiac selective muscarinic antagonists such as himbacine and AF-DX 116 show high affinities for this binding site in the M2LKB2-2 cells. The rank order of potency of several antagonists in inhibiting [3H] (-)MQNB binding in these cells conformed to the characteristics of an M2 type muscarinic receptor. Carbachol showed a single affinity state for the receptors in the M2LKB2-2 cells with a Ki value of 2.0 microM. This receptor appeared to be inversely coupled to adenylate cyclase via a pertussis toxin sensitive G-protein. Carbachol also had a slight stimulatory effect on the hydrolysis of inositol lipids. The polymerase chain reaction proves highly effective in cloning genes from genomic material, as demonstrated by the first in vitro functional expression of the rat M2 type muscarinic receptor.     

人白血病抑制因子在昆虫细胞Sf9中的表达

人白血病抑制因子(hLIF)cDNA装入p2bac,受其多角蛋白启动子控制,并与野生型线性杆状病毒DNA共转染昆虫细胞Sf9。经ELISA和免疫印迹证实,该重组病毒感染Sf9 24h后(胞解液)和48h后(培养液),均可测得表达的hLIF,在72h时蛋白浓度可达每毫升(1×10~7细胞)4～10μg;经细胞活性观察表明,该蛋白可促进人白血病细胞U937分化,并使U937内信号分子STAT_3合成增加。结果表明,昆虫细胞表达的hLIF可分泌于培养液中且含量高。它的高表达、易纯化、强活性,有实用价值。     

Agonist-induced phosphorylation and desensitization of human m2 muscarinic cholinergic receptors in Sf9 insect cells.

The human m1 (hm1) and m2 (hm2) muscarinic cholinergic receptors (mAChR) expressed in Sf9 insect cells using recombinant baculovirus were tested for their ability to undergo agonist-dependent phosphorylation and desensitization. The muscarinic agonist carbachol induced phosphorylation of the hm2 mAChR in the Sf9 cells incubated with 32P(i) to an extent of 4-5 mol of phosphate/mol of receptor. In contrast, no phosphorylation of the hm1 mAChR was observed. The hm2 mAChR stimulated [35S]GTP gamma S binding to, and GTPase activity of, the insect cell G-proteins. These receptor-mediated activities were reduced by 50% in membranes prepared from agonist-treated cells compared to control, suggesting that the agonist-induced phosphorylation of the hm2 mAChR resulted in desensitization of the receptors. No role for protein kinase C or cyclic nucleotide-dependent kinases in receptor phosphorylation and desensitization was suggested from studies using agents known to modulate the activity of these enzymes. However, pertussis toxin was found to completely eliminate the interaction of the hm2 receptors with the insect cell G-proteins, but did not perturb the ability of carbachol to induce agonist-dependent phosphorylation of the receptors. These results suggested that G-proteins and/or G-protein-activated signalling were not necessary for the agonist-induced phosphorylation of the receptors. Overall, the data indicated that the human m2 (but not the human m1) mAChR expressed in Sf9 insect cells undergo phosphorylation and desensitization in an agonist-dependent, G-protein-independent fashion by an endogenous insect cell kinase. The results demonstrated that a human G-protein-linked receptor is regulated in insect cells in a manner that is similar to that involving members of the G-protein receptor-kinase family.     

Homodimerization of human mu-opioid receptor overexpressed in Sf9 insect cells

In this study, we demonstrate that human mu-opioid receptors do form SDS-resistant homodimers and examine the ability of human mu-opioid receptors to dimerize and the role of agonists in the dimerization. Increasing concentrations and longer exposure of agonists reduce the levels of dimmer with a corresponding increase in the levels of monomer. This effect is achieved with both peptide and alkaloid opioid agonists and it is antagonist reversible. These results suggest that human mu-opioid receptors are present as receptor oligomers and interconversion between dimeric and monomeric forms may be important for biological activity.     

Ni2+ transport by the human Na+/Ca2+ exchanger expressed in Sf 9cells

The mechanism ofNi²⁺ block of theNa⁺/Ca²⁺exchanger was examined in Sf 9 cells expressing the human heartNa⁺/Ca²⁺exchanger (NCX1-NACA1). As predicted from the reported actions ofNi²⁺, its application reducedextracellular Na⁺-dependentchanges in intracellular Ca²⁺concentration (measured by fluo 3 fluorescence changes). However, contrary to expectation, the reduced fluorescence was accompanied bymeasured⁶³Ni²⁺entry. The⁶³Ni²⁺entry was observed in Sf 9 cells expressing theNa⁺/Ca²⁺exchanger but not in control cells. The established sequential transport mechanism of theNa⁺/Ca²⁺exchanger could be compatible with these results if one of the two iontranslocation steps is blocked byNi²⁺ and the other permitsNi²⁺ translocation. We concludethat, because Ni²⁺ entry wasinhibited by extracellular Ca²⁺and enhanced by extracellular Na⁺,the Ca²⁺ translocation step movedNi²⁺, whereas theNa⁺ translocation step wasinhibited by Ni²⁺. A model ispresented to discuss these findings.     

Functional expression of the human cardiac Na+/Ca2+ exchanger in Sf9 cells: rapid and specific Ni2+ transport

Although inhibition of the Na+/Ca2+ exchanger normally increases [Ca2+]i in neonatal cardiac myocytes, application of the inhibitor Ni2+ appears to reduce [Ca2+] measured by fluo-3. To investigate how the apparent reduction in [Ca2+]i occurs we examined Ca2+ transport by the human Na+/Ca2+ exchanger expressed in Sf9 cells. Transport of Ca2+ by the Na+/Ca2+ exchanger was examined using a laser-scanning confocal microscope and the fluorescent Ca2+ indicator fluo-3, and the electrogenic function was determined by measuring the Na+/Ca2+ exchange current (INaCa) using patch clamp methods. INaCa was elicited with voltage-clamp steps or flash photolysis of caged Ca2+. We show significant expression of Na+/Ca2+ exchanger function in Sf9 cells infected with a recombinant Baculovirus carrying the Na+/Ca2+ exchanger. In addition to measurements of INaCa, characterization includes Ca2+ transport via the Na+/Ca2+ exchanger and the voltage dependence of Ca2+ transport. Application of Ni2+ blocked INaCa but, contrary to expectation, decreased fluo-3 fluorescence. Experiments with infected Sf9 cells suggested that Ni2+ was transported via the Na+/Ca2+ exchanger at a rate comparable to the Ca2+ transport. Once inside the cells, Ni2+ reduced fluorescence, presumably by quenching fluo-3. We conclude that Ni2+ does indeed block INaCa, but is also rapidly translocated across the cell membrane by the Na+/Ca2+ exchanger itself, most likely via an electroneutral partial reaction of the exchange cycle.     

Purification and characterization of a recombinant rat prohaptoglobin expressed in baculovirus-infected Sf9 insect cells

To generate hemoglobin-free full-length haptoglobin the cDNA encoding rat haptoglobin alphabeta subunits was cloned into shuttle vector pVT-Bac-His and used to produce a recombinant baculovirus Autographa californica Nuclear Polyhedrosis Virus (AcNPV) as an expression vector, named HpAcNPV. Recombinant virus was used to infect Spodoptera frugiperda (Sf9) insect cells. The 50 kDa protein expressed was mostly secreted into the culture medium at relatively high titer (15 microg/mL) and was found to be rat prohaptoglobin having a vector-derived N-terminal extension of 37 amino acids, containing both a hexahistidine tag and an enterokinase recognition sequence. The protein was successfully purified by a three step procedure including nickel-linked agarose and DEAE-Sepharose chromatography steps. Hemoglobin was not detected in the purified preparations. Purified recombinant rat prohaptoglobin protein was also found to be glycosylated, and to be capable of forming a complex with rat hemoglobin in vitro.     

Flipase-mediated cassette exchange in Sf9 insect cells for stable gene expression

Site‐specific DNA integration allows predictable heterologous gene expression and circumvents extensive clone screening. Herein, the establishment of a Flipase (Flp)‐mediated cassette exchange system in Sf9 insect cells for targeted gene integration is described. A tagging cassette harboring a reporter dsRed gene was randomly introduced into the cell genome after screening different transfection protocols. Single‐copy integration clones were then co‐transfected with both Flp‐containing plasmid and an EGFP‐containing targeting cassette. Successful cassette exchange was suggested by emergence of G418‐resistant green colonies and confirmed by PCR analysis, showing the absence of the tagging cassette and single integration of the targeting cassette in the same locus. Upon cassette exchange, uniform EGFP expression between clones derived from the same integration site was obtained. Moreover, the resulting cell clones exhibited the expression properties of the parental cell line. EGFP production titers over 40 mg/L were of the same order of magnitude as those achieved through baculovirus infection. This Sf9 master cell line constitutes a versatile and re‐usable platform to produce multiple recombinant proteins for fundamental and applied research. Biotechnol. Bioeng. 2012; 109: 2836–2844. © 2012 Wiley Periodicals, Inc.     

Overexpression and functional characterisation of the human melanocortin 4 receptor in Sf9 cells

The human melanocortin 4 receptor (MC4r) was successfully expressed in Sf9 cells using the baculovirus infection system. N- and C-terminally His-tagged receptors generated B(max) values of 14 and 23 pmol receptor/mg membrane protein, respectively. The highest expression level obtained with the C-terminally His-tagged MC4r corresponded to 0.25mg active receptor/litre culture volume. Addition of a viral signal peptide at the N-terminus of the His-tagged MC4r did not improve the expression level. Confocal laser microscopy studies revealed that both the N- and C-terminally tagged MC4r did not accumulate intracellularly and were mainly located in the plasma membrane. The recombinant receptors showed similar affinity for the agonist NDP-MSH (Kd = 11 nM) as to MC4r expressed in mammalian cells. Functional coupling of the highest expressed C-terminal tagged receptor to endogenous Galpha protein was demonstrated through GTPgammaS binding upon agonist stimulation of the receptor. Ki values for the ligands MTII, HS014, alpha-, beta-, and gamma-MSH are comparable to the values obtained for MC4r expressed in mammalian cells.     

昆虫细胞制备AAV-ITR基因表达微载体

AAV-ITR基因表达微载体是只含有腺相关病毒(Adeno-associated virus,AAV)倒置末端重复序列(Inverted terminal repeats,ITR)、基因表达顺式元件和目的基因,而不含有其他外源DNA序列的双链或单链DNA。本研究利用杆状病毒表达系统,制备得到两种重组杆状病毒Bac-ITR-EGFP和Bac-inrep,并将二者的P3代病毒共同感染昆虫细胞Spodoptera frugiperda(Sf9),抽提小分子量DNA,获得AAV-ITR-EGFP基因表达微载体,2×107的Sf9细胞抽提可以得到100μg AAV-ITR-EGFP基因表达微载体,核酸电泳显示AAV-ITR-EGFP基因表达微载体主要以单体和二聚体的形式存在。将AAV-ITR-EGFP基因表达微载体通过polyethylenimine(PEI)转染HEK 293T细胞,24 h后荧光显微镜观察有EGFP表达,48 h后达到高峰,转化效率达到65%。     

Purification and characterization of a recombinant human testican-2 expressed in baculovirus-infected Sf9 insect cells

Testican-2 is a member of the testican group of brain extracellular proteoglycans where a 45 kDa modular protein core is composed of a follistatin-like domain, a calcium-binding domain, a thyroglobulin type-1 (Tg1) domain and an acid C-terminal region with glycosaminoglycan attachment sites. The modular structure suggests that it could participate in various interactions. The aim of the present study was to express and characterize a recombinant human testican-2 in quantities sufficient for structural and functional studies. Human cDNA coding for a 422 amino acid testican-2 protein was cloned into the pFastBac1 vector and expressed in the Spodoptera frugiperda (Sf9) insect cell expression system. The protein was purified to homogeneity by three chromatographic steps using the His(6) tag in the first two steps and ion exchange chromatography as last one. The final yield of purified recombinant testican-2 was up to 3.5 mg/L culture medium and its molecular mass determined by SDS-PAGE was approximately 55 kDa. Analysis by enzymatic deglycosylation revealed presence of N-linked sugars with a total mass of 4 kDa. In contrast to the Tg1 domain of testican-1, which acts as an inhibitor of the lysosomal cysteine peptidase cathepsin L, the Tg1 domain of testican-2 did not inhibit cathepsins L, B, K and S. We identified the C1q subcomponent of complement component C1 as a potential interacting partner of testican-2. The C1q subcomponent is a recognition molecule which acts in concert with other C1 subcomponents to activate the classical pathway of complement activation. The reported new interaction could be of importance in various complement-mediated inflammatory and other immune processes.     

Comparison of recombinant protein expression in a baculovirus system in insect cells (Sf9) and silkworm

Using a hybrid baculovirus system, we compared the expression of 45 recombinant proteins from six categories using two models: silkworm (larvae and pupae) and an Sf9 cell line. A total of 45 proteins were successfully expressed; preparation of hybrid baculovirus was unsuccessful for one protein, and two proteins were not expressed. A similar pattern of expression was seen in both silkworm and Sf9 cells, with double and multiple bands found in immunoblotting of the precipitate of both hosts. Degraded proteins were seen only in the silkworm system (particularly in the larvae). Production was more efficient in silkworms; a single silkworm produced about 70 times more protein than 10(6) Sf9 cells in 2 ml of culture medium.     

Isolation and functional characterization of the chick M5 muscarinic acetylcholine receptor gene

The chick is a widely used system for study of the actions of muscarinic acetylcholine receptors in the cardiovascular, visual, and nervous systems. We report the isolation and functional analysis of the gene encoding the chick M5 muscarinic receptor. RT-PCR analysis indicates that the M5 receptor is expressed at low levels in embryonic chick brain and heart. When expressed in stably transfected Chinese hamster ovary cells, the M5 receptor exhibits high-affinity binding to muscarinic antagonists and mediates robust activation of phospholipase C activity.     

Isoproterenol potentiates alpha -adrenergic and muscarinic receptor-mediated Ca2+ response in rat parotid cells

The effects of the cAMP pathway on theCa²⁺ response elicited byphospholipase C-coupled receptor stimulations were studied in ratparotid cells. Although 1 µM isoproterenol (Iso) itself had no effect on the cytosolicCa²⁺ concentration, thepretreatment with Iso potentiatedCa²⁺ responses evoked byphenylephrine. The potentiating effect of Iso was attributed to ashifting of the concentration-response curves of phenylephrine to theleft and an increase in the maximal response. Half-maximal potentiationoccurred at 3 nM Iso. Iso also potentiated theCa²⁺ response elicited bycarbachol. The potentiating effect of Iso was mimicked by forskolin (10 µM) and dibutyryl adenosine 3',5'-cyclic monophosphate (2 mM) and was blocked by 10 µM H-89. Iso potentiated thephenylephrine-induced Ca²⁺response in the absence of extracellularCa²⁺, but Iso did not increase theinositol trisphosphate (IP₃)production induced by phenylephrine. These results suggest that thepotentiation of the Ca²⁺ responsecan be attributed to a sensitization ofIP₃ receptors by cAMP-dependentprotein kinase.

     

Purification and characterisation of functional early pregnancy factor expressed in Sf9 insect cells and in Escherichia coli

Early pregnancy factor (EPF) is a secreted protein with growth regulatory and immunomodulatory properties. It is an extracellular form of the mitochondrial matrix protein chaperonin 10 (Cpn10), a molecular chaperone. An understanding of the mechanism of action of EPF and an exploration of therapeutic potential has been limited by availability of purified material. The present study was undertaken to develop a simple high-yielding procedure for preparation of material for structure/function studies, which could be scaled up for therapeutic application. Human EPF was expressed in Sf9 insect cells by baculovirus infection and in Escherichia coli using a heat inducible vector. A modified molecule with an additional N-terminal alanine was also expressed in E. coli. The soluble protein was purified from cell lysates via anion exchange (negative-binding mode), cation exchange, and hydrophobic interaction chromatography, yielding approximately 42 and 36mg EPF from 300ml bacterial and 1L Sf9 cultures, respectively. The preparations were highly purified (#10878;99% purity on SDS-PAGE for the bacterial products and #10878;97% for that of insect cells) and had the expected mass and heptameric structure under native conditions, as determined by mass spectrometry and gel permeation chromatography, respectively. All recombinant preparations exhibited activity in the EPF bioassay, the rosette inhibition test, with similar potency both to each other and to the native molecule. In two in vivo assays of immunosuppressive activity, the delayed-type hypersensitivity reaction and experimental autoimmune encephalomyelitis, the insect cell and modified bacterial products, both with N-terminal additions (acetylation or amino acid), exhibited similar levels of suppressive activity, but the bacterial product with no N-terminal modification had no effect in either assay. Studies by others have shown that N-terminal addition is not necessary for Cpn10 activity. By defining techniques for facile production of molecules with and without immunosuppressive properties, the present studies make it possible to explore mechanisms underlying the distinction between EPF and Cpn10 activity.     

Expression of functional M2 muscarinic acetylcholine receptor in Escherichia coli

The M2 muscarinic acetylcholine receptor mutant (M2 mutant), with a lack of glycosylation sites, a deletion in the central part of the third inner loop, and the addition of a six histidine tag at the C-terminus, was fused to maltose binding protein (MBP) at its N-terminus and expressed in Escherichia coli. The expression level was 0.2 nmol receptor per 100 ml culture, as assessed as [3H]L-quinuclidinyl benzilate ([3H]QNB) binding activity, when the BL 21 strain was cultured at 37 degrees C to a late growth phase and the expression was induced by isopropyl beta-thiogalactoside at 20 degrees C. No [3H]QNB binding activity was detected when it was not fused to MBP or when expression was induced at 37 degrees C instead of 20 degrees C. The MBP-M2 mutant expressed in E. coli showed the same ligand binding activity as the M2 mutant expressed in the Sporodoptera frugiperda (Sf9)/baculovirus system, as assessed as displacement of [(3)H]QNB with carbamylcholine and atropine. The MBP-M2 mutant was solubilized, purified with Co2+-immobilized Chelating Sepharose gel and SP-Sepharose, and then reconstituted into lipid vesicles with G protein Go or Gi1 in the presence or absence of cholesterol. The reconstituted vesicles showed GTP-sensitive high affinity binding for carbamylcholine and carbamylcholine-stimulated [35S]GTP gamma S binding activity in the presence of GDP. The proportion of high affinity sites for carbamylcholine and the extent of carbamylcholine-stimulated [(35)S]GTP gamma S binding were the same as those observed for the M2 mutant expressed in Sf9 cells and were not affected by the presence or absence of cholesterol. These results indicate that the MBP-M2 mutant expressed in E. coli has the same ability to interact with and activate G proteins as the M2 mutant expressed in Sf9, and that cholesterol is not essential for the function of the M2 muscarinic receptor.