Baculovirus-directed expression of the human insulin receptor and an insulin-binding ectodomain

In this report we describe the use of the baculovirus expression system to overproduce the human insulin holoreceptor (HIR) and a truncated, secretory version of the HIR cDNA (HIRsec) consisting of the alpha subunit and the extracellular portion of the beta subunit (beta'). Sf9 cells infected with the full-length HIR viruses synthesize recombinant HIR (rHIR) with an insulin-binding alpha subunit of apparent Mr = 110,000 and a beta subunit of apparent Mr = 80,000. Uncleaved alpha beta proreceptor accumulates in infected cells. Both of these forms assemble into higher order disulfide-linked dimers or heterotetramers of apparent Mr greater than 350,000. Insulin-binding activity in cells infected with rHIR viruses is present predominantly on the extracellular aspect of the plasma membrane (greater than 80%). Insulin binding to the full-length rHIR occurs with typical complex kinetics with Kd1 = 0.5-1 x 10(-9) M and Kd2 = 10(-7) M and receptors are present in large amounts in infected cells (1 x 10(6) receptors/cell; 1-2 mg HIR/10(9) cells). The full-length rHIR undergoes insulin-dependent autophosphorylation; half-maximal activation of beta subunit autophosphorylation occurs at 1-2 x 10(-8) M. The alpha beta proreceptor also becomes phosphorylated in vitro. Analysis of tryptic phosphopeptides derived from in vitro autophosphorylated beta subunit and alpha beta proreceptor reveals a pattern of phosphorylation that is indistinguishable from that of authentic placental HIR. Sf9 cells infected with rHIRsec viruses synthesize and secrete an (alpha beta')2 heterotetrameric complex having an insulin-binding alpha subunit of apparent Mr = 110,000 and a truncated beta' subunit of apparent Mr = 45,000 that lacks kinase activity. The rHIRsec complex purified from the conditioned medium of infected cells binds insulin with high affinity (Kd = 10(-9) M).     

Expression of functional G protein beta gamma dimers of defined subunit composition using a baculovirus expression system.

The 36-kDa beta 1, 35-kDa beta 2, and 6.5-kDa gamma 2 subunits of the heterotrimeric guanine nucleotide-binding proteins have been overexpressed in Sf9 cells using a baculovirus expression system. The gamma 2 subunit expressed in Sf9 cells incorporated label derived from [3H]mevalonate and is therefore likely to be isoprenylated, as is its mammalian counterpart. Extracts of Sf9 cells doubly infected with viruses encoding a beta subunit and viruses encoding a gamma subunit are active in promoting the pertussis toxin-catalyzed ADP-ribosylation of a G protein alpha subunit. However, extracts from Sf9 cells singly infected with viruses encoding either a beta or gamma subunit are not active in this assay. Results demonstrate utility of the insect/baculovirus system for expressing G protein beta gamma subunits of defined composition.     

人绒毛膜促性腺激素β亚基和绵羊垂体促性腺激素共有α亚基组成的单链多...

hCG beta-oLH alpha chimeric cDNA was constructed by using overlapping PCR to contact the codons of C-terminal end of hCG beta with the codons of N-terminal end of oLH alpha, then it was subcloned into nuclear polyhedrosis virus (AcNPV) expression vector pVL1393 to construct expression vector pVL1393-hCG beta-oLH alpha. The insect cells (Sf9) were cotransfected by the expression vector pVL1393-hCG beta-oLH alpha and BaculoGold AcNPV linearized genomic DNA, and recombinant viruses AcNPV-hCG beta-oLH alpha were screened out by plaque assay. Further the insect cells were infected by the recombinant viruses, the recombinant hCG beta-oLH alpha was purified by immunoaffinity chromatography column coupling anti-hCG beta monoclonal antibody from the conditioned media of infected cells. The results of SDS-PAGE silver staining and western blotting showed that hCG beta-oLH alpha single peptide chain had apparent molecular weights of 40.5 kD and 38.0 kD under non-reducing and reducing conditions respectively, indicating the occurrence of disulfide bonds and significant tertiary structure in the single peptide chain. From the results of competitive inhibition of 125I-hCG beta binding we can conclude that the anti-hCG beta antibody-binding activity of hCG beta-oLH alpha chimera is lower than that of native hCG, but higher than that of native hCG beta. Therefore, we assume that the hCG beta-oLH alpha chimera should have potential application as a target antigen of anti-hCG fertility regulatory vaccine.     

重组人卵泡刺激素在昆虫细胞中的表达

为了研究在昆虫细胞中表达重组人卵泡刺激素,我们以人胎盘组织提取的染色体DNA为模板,利用重叠PCR方法扩增出hFSHβ亚基的cDNA的编码区。将此cDNA克隆入核型多角体病毒(AcNPV)非融合蛋白基因表达载体pVLl393,我们得到了表达载体pVLl393-hFSHβ,然后与BaculoGold^TM线性杆状病毒DNA共转染昆虫细胞SF9,经多次扩增后获得高滴度的重组病毒AcNPV-hFSHβ。将此重组病毒感染昆虫细胞,我们得到了在胞浆中表达的hFSHβ亚基,Western blot显示分子量大约为21kDa。以重组病毒AcNPV-hFSHβ与AcNPV-hCGoL一同感染昆虫细胞得到了具有分泌性的重组hFSH异二聚体,在非还原的条件下Western blot显示分子量大约为33kDa。     

Lateral mobility and anchoring of recombinant GABAA receptors depend on subunit composition.

The clustering of type A gamma-aminobutyric acid receptors (GABA(A)R) at discrete and functionally significant domains on the nerve cell surface is an important determinant in the integration of synaptic inputs. To discern the role that the subunits of the GABA(A)R play in determining the receptor's cell surface topography and mobility, the alpha1, beta1, beta3, and gamma2s subunits were transfected into COS7, HEK293, and PC12 cells and the distribution and cell surface mobility of these recombinant receptors were examined. Our results show that alpha1 subunits are retained in the endoplasmic reticulum while beta1 and beta3 subunits are sorted to the plasma membrane where they form clusters. Co-expression and co-assembly of alpha1 and beta3 subunits result in the rescue of intracellular alpha1 subunits, which are transported as alphabeta subunit complexes to the cell surface where they formed clusters. Fluorescence photobleach recovery and single particle tracking of recombinant receptors show that, despite clustering, beta3 subunit homooligomers are mobile within a cell surface domain. Inclusion of alpha1 in beta3 or beta3gamma2s complexes, however, dramatically reduces the receptor's lateral mobility in COS 7 and PC12 cells and anchors GABA(A)Rs on the cell surface, suggesting the formation of a direct link to a component of the cytoskeleton. The mobility of recombinant receptors that include the alpha1 subunit mirrors the mobility of GABA(A)Rs on cell bodies and dendrites of cortical and spinal cord neurons. The results suggest that incorporation of alpha1 subunits give rise to a population of GABA(A)Rs that are immobilized on the cell surface.     

Rapid desensitization of α1β1 GABAA receptors expressed in Sf9 cells under optimized conditions

₁ and ₁ subunits of human GABA_A receptors were expressed in Sf9 cells using the Sf9-baculovirus system. Better expression was obtained by manipulating the system. Cell growth phase at the time of infection determined the practical range of virus titre, the period postinfection during which cells were useful for signal detection and the maximal current obtained. Cells in the early exponential phase were relatively insensitive to multiplicity of infection (MOI) whereas cells in the midto late-exponential phase were highly dependent on MOI and they responded with the largest Cl–} current generated by GABA. Channels activated by GABA were chloride-selective. Half the maximum peak whole-cell current was obtained with 11 m GABA. The time course of Cl–} currents activated by saturating GABA concentrations in cells infected with ₁₁recombinant viruses was examined employing a rapid perfusion system which allowed whole-cell solution exchange in less than 1 msec. The current decay could be fitted by 3 to 4 exponentials for the first 8 sec. The initial fast current decrease had a time constant of about 23 msec. No voltage dependence of time constants was detected but the whole-cell IV relation showed outward rectification. Currents were depressed by bicuculline, penicillin and picrotoxin and potentiated by pentobarbitone.We are grateful to I. Woo and B. MacLachlan for their expert technical assistance and L. Hardy for secretarial assistance. This work was generously supported by: Sir Rutherford Robertson, Sir John Pround, The Raymond E. Purves Foundation, The James N. Kirby Foundation, C. H. Warman and the Brace and Joy Reid Foundation.     

昆虫细胞表达的网状内皮组织增殖症病毒囊膜糖蛋白及其免疫性

利用Bac-to-BacBaculovirusExpressionSystems构建了能表达禽网状内皮组织增殖症病毒(REV)囊膜糖蛋白基因(env)的重组杆状病毒。用REV特异性单克隆抗体分别做间接免疫荧光抗体试验(IFA)和免疫转印试验,均可从感染的Sf9昆虫细胞中检出REVenv。重组杆状病毒感染的Sf9细胞裂解后制备成油乳疫苗免疫SPF鸡后,可以诱发维持45d以上的特异性抗REV抗体,并可抵抗REV病毒感染。     

The mechanism of SR95531 inhibition at GABA receptors examined in human alpha1beta1 and alpha1beta1gamma2S receptors

We examined the interaction of GABA and the competitive inhibitor SR95531 at human alpha1beta1gamma2S and alpha1beta1 GABA(A) receptors expressed in Sf9 cells. The efficacy and potency of inhibition depended on the relative timing of the GABA and SR95531 applications. In saturating (10 mM) GABA, the half-inhibitory concentrations of SR95531 (IC50) when coapplied with GABA to alpha1beta1gamma2S or alpha1beta1 receptors were 49 and 210 microM for the peak and 18 and 130 microM for the plateau current, respectively. Our data are explained by an inhibition mechanism in which SR95531 and GABA bind to two sites on the receptor where the binding of GABA allows channel opening but SR95531 does not. The SR95531 affinity for both receptor types was approximately 200 nM and the binding rate was found to be 10-fold faster than that for GABA. The dual binding-site model gives insights into the differential effects of GABA and SR95531 on the peak and plateau currents. The model predicts the effect of SR95531 on GABA currents in the synapse (GABA concentration approximately mM) and at extrasynaptic (GABA concentration < or = microM) sites. The IC50 (50-100 nM) for the synaptic response to SR95531 was insensitive to the GABA affinity of the receptors whereas the IC50 (50-800 nM) for extrasynaptic inhibition correlated with the GABA affinity.     

重组鸡γ_干扰素在昆虫细胞中的高效表达

将鸡γ-干扰素(ChIFN-γ)基因克隆到载体pFASTBAC1中,构建转移载体pFASTBAC1-ChIFN-γ,然后转化DH10Bac感受态大肠杆菌,通过位点特异性转座,将ChIFN-γ基因整合到Bacmid穿梭载体中,构建表达质粒Bacmid-ChIFN-γ;通过脂质体将表达质粒转染Sf9昆虫细胞,用间接免疫荧光试验鉴定重组鸡γ-干扰素(rChIFN-γ)的表达;通过水泡性口炎病毒感染鸡胚成纤维细胞(CEF)的细胞病变抑制试验,检测rChIFN-γ的活性。研究结果表明,感染重组杆状病毒的Sf9细胞能高效表达rChIFN-γ,且当每个细胞的感染量为1个病毒时,细胞在感染96h后,rChIFN-γ基因表达产物的活性最高,达到106~107.2U/mL。以rChIFN-γ进行对新城疫病毒(NDV)F48E8株、禽流感H5N1病毒(AIV-H5)和马立克氏病病毒(MDV)GA株的抗病毒活性试验,发现rChIFN-γ对AIV-H5和MDV GA株病毒有明显的抑制其致细胞病变作用,但对NDVF48E8株病毒在体外不能抑制其致细胞病变作用,仅能在病毒滴度上表现抑制效果。     

The alpha and beta subunits of the Na,K-ATPase can assemble at the plasma membrane into functional enzyme

Synthesis and assembly of most oligomeric plasma membrane proteins occurs in the ER. However, the role the ER plays in oligomerization is unknown. We have previously demonstrated that unassociated alpha and beta subunits of the Na,K-ATPase are targeted to the plasma membrane when individually expressed in baculovirus-infected Sf-9 cells. This unique property allows us to determine if assembly of these two polypeptides is restricted to the ER, or if it can also occur at the plasma membrane. To investigate the assembly of the Na,K-ATPase we have taken advantage of the ability of baculovirus-infected cells to fuse. Lowering the extracellular pH of the infected cells triggers an endogenously expressed viral protein to initiate plasma membrane fusion. When individual Sf-9 cells expressing either the Na,K-ATPase alpha or beta subunits are plated together and subjected to a mild acidic shock, they form large syncytia. In the newly continuous plasma membrane the separate alpha and beta polypeptides associate and assemble into functional Na,K-ATPase molecules. However, a hybrid ATPase molecule consisting of a Na,K-ATPase alpha subunit and a H,K- ATPase beta subunit, which efficiently assembles in the ER of coinfected cells, does not assemble at the plasma membrane of fused cells. When cells expressing the Na,K-ATPase alpha subunit are fused to cells coexpressing the Na,K-ATPase beta subunit and the H,K-ATPase beta subunit, the Na,K-ATPase alpha subunit selectively assembles with the Na,K-ATPase beta subunit. However, when cells are coinfected and expressing all three polypeptides, the Na,K-ATPase alpha subunit assembles with both beta subunits in the ER, in what appears to be a random fashion. These experiments demonstrate that assembly between some polypeptides is restricted to the ER, and suggests that the ability of the Na,K-ATPase alpha and beta subunits to leave the ER and assemble at the plasma membrane may represent a novel mechanism of regulation of activity.     

Two invariant tryptophans on the alpha1 subunit define domains necessary for GABA(A) receptor assembly.

Two invariant tryptophan residues on the N-terminal extracellular region of the rat alpha1 subunit, Trp-69 and Trp-94, are critical for the assembly of the GABA(A) (gamma-aminobutyric acid, type A) receptor into a pentamer. These tryptophans are common not only to all GABA(A) receptor subunits, but also to all ligand-gated ion channel subunits. Converting each Trp residue to Phe and Gly by site-directed mutagenesis allowed us to study the role of these invariant tryptophan residues. Mutant alpha1 subunits, coexpressed with beta2 subunits in baculovirus-infected Sf9 cells, displayed high affinity binding to [(3)H]muscimol, a GABA site ligand, but no binding to [(35)S]t-butyl bicyclophosphorothionate, a ligand for the receptor-associated ion channel. Neither [(3)H]muscimol binding to intact cells nor immunostaining of nonpermeabilized cells gave evidence of surface expression of the receptor. When expressed with beta2 and gamma2 polypeptides, the mutant alpha1 polypeptides did not form [(3)H]flunitrazepam binding sites though wild-type alpha1 polypeptides did. The distribution of the mutant receptors on sucrose gradients suggests that the effects on ligand binding result from the inability of the mutant alpha1 subunits to form pentamers. We conclude that Trp-69 and Trp-94 participate in the formation of the interface between alpha and beta subunits, but not of the GABA binding site.     

Modulation of GABA(A) receptor function by neuroactive steroids: evidence for heterogeneity of steroid sensitivity of recombinant GABA(A) receptor isoforms

Neuroactive steroids are potent, selective allosteric modulators of gamma-aminobutyric acid type A (GABA(A)) receptor function in the central nervous system, and may serve as endogenous anxiolytic and analgesic agents. In order to study the influence of subunit subtypes of the GABA(A) receptor on modulation of receptor function by neuroactive steroids, we expressed human recombinant GABA(A) receptors in Xenopus oocytes. GABA-activated membrane current, and the modulatory effects of the endogenous neurosteroid 5alpha-pregnan-3alpha-ol-20-one (allopregnanolone) and the synthetic steroid anesthetic 5alpha-pregnan-3alpha-ol-11,20-dione (alphaxalone) were measured using two-electrode voltage-clamp recording techniques. Allopregnanolone had similar effects to potentiate GABA-activated membrane current in the alpha1beta1gamma2L and alpha1beta2gamma2L receptor isoforms. In contrast, alphaxalone was much more effective as a positive allosteric modulator on the alpha1beta1gamma2L receptor isoform. In the absence of the gamma2L subunit subtype, allopregnanolone had much greater efficacy, but its potency was decreased. Allopregnanolone was much more effective on the alpha1beta1 receptor isoform compared with the alpha1beta2 receptor isoform. The potency for alphaxalone to potentiate the GABA response was not altered in the absence of the gamma2L subunit subtype, although its efficacy was greatly enhanced. Both allopregnanolone and alphaxalone produced nonparallel leftward shifts in the GABA concentration-response relationship in the absence of the gamma2L subunit, decreasing the EC50 concentration of GABA and increasing the maximal response. Only alphaxalone increased the maximal GABA response when the gamma2L subunit subtype was present. The 3beta-pregnane isomers epipregnanolone and isopregnanolone both inhibited the ability of allopregnanolone and alphaxalone to potentiate GABA(A) receptor function. However, the degree of block produced by the 3beta-pregnane steroid isomers was dependent on the type of receptor isoform studied and the neuroactive steroid tested. Isopregnanolone, the 3beta-isomer of allopregnanolone, was significantly more effective as a blocker of potentiation caused by allopregnanolone compared with alphaxalone in all receptor isoforms tested. Epipregnanolone had a greater efficacy as a blocker at the alpha1beta2gamma2L receptor isoform compared with the alpha1beta1gamma2L receptor isoform, and also produced a greater degree of block of potentiation caused by allopregnanolone compared with alphaxalone. Our results support the hypothesis that the heteromeric assembly of different GABA(A) receptor isoforms containing different subunit subtypes results in multiple steroid recognition sites on GABA(A) receptors, which in turn produces distinctly different modulatory interactions between neuroactive steroids acting at the GABA(A) receptor. The alpha and gamma subunit subtypes may have the greatest influence on allopregnanolone modulation of GABA(A) receptor function, whereas the beta and gamma subunit subtypes appear to be most important for the modulatory effects of alphaxalone.     

Stress-induced apoptosis in Spodoptera frugiperda (Sf9) cells: baculovirus p35 mitigates eIF2 alpha phosphorylation

Spodoptera frugiperda (Sf9) ovarian cells, natural hosts for baculovirus, are good model systems to study apoptosis and also heterologous gene expression. We report that uninfected Sf9 cells readily undergo apoptosis and show increased phosphorylation of the alpha subunit of eukaryotic initiation factor 2 (eIF2alpha) in the presence of agents such as UVB light, etoposide, high concentrations of cycloheximide, and EGTA. In contrast, tunicamycin, A23187, and low concentrations of cycloheximide promoted eIF2alpha phosphorylation in Sf9 cells but without apoptosis. These findings therefore suggest that increased eIF2alpha phosphorylation does not always necessarily lead to apoptosis, but it is a characteristic hallmark of stressed cells and also of cells undergoing apoptosis. Cell death induced by the above agents was abrogated by infection of Sf9 cells with wild-type (wt) AcNPV. In contrast, Sf9 cells when infected with vAcdelta35, a virus carrying deletion of the antiapoptotic p35 gene, showed increased apoptosis and enhanced eIF2alpha phosphorylation. Further, a recombinant wt virus vAcS51D expressing human S51D, a phosphomimetic form of eIF2alpha, induced apoptosis in UVB pretreated Sf9 cells. However, infection with vAcS51A expressing a nonphosphorylatable form (S51A) of human eIF2alpha partially reduced apoptosis. Consistent with these findings, it has been observed here that caspase activation has led to increased eIF2alpha phosphorylation, while caspase inhibition by z-VAD-fmk reduced eIF2alpha phosphorylation selectively in cells exposed to proapoptotic agents. These findings therefore suggest that the stress signaling pathway determines apoptosis, and caspase activation is a prerequisite for increased eIF2alpha phosphorylation in Sf9 cells undergoing apoptosis. The findings also reinforce the conclusion for the first time that the "pancaspase inhibitor" baculovirus p35 mitigates eIF2alpha phosphorylation.     

High-Level Synthesis and Fate of Acetylcholine in Baculovirus-Infected Cells: Characterization and Purification of Recombinant Rat Choline Acetyltransferase

Rat choline acetyltransferase (ChAT) has been expressed at a high level in Spodoptera frugiperda Sf9 cells using a baculovirus expression system. A cDNA containing the coding sequence for ChAT was inserted into the transfer vector pAcYM1 to yield the recombinant vector pAcYM1/ChAT. Sf9 cells were then coinfected with pAcYM1/ChAT and the wild-type Autographa californica virus. One recombinant virus particle, containing the cDNA for ChAT, was selected that expressed a protein of 68.5 kDa. Forty hours after infection of cells with the recombinant virus, the specific activity of ChAT in the cytosol was 190 nmol of acetylcholine/min/mg of protein, accounting for approximately 24% of the cell cytosolic proteins as being ChAT. The apparent Km values of the enzyme for choline and acetyl-CoA were 299 and 221 microM, respectively, whereas the respective Vmax values were 10.6 and 11.4 mumol of acetylcholine/min/mg of protein. In addition, analysis of the protein revealed that ChAT is phosphorylated in Sf9 cells. About 0.5 mg of ChAT was obtained from a one-step purification procedure starting with 10(8) infected Sf9 cells. Addition of choline to the incubation medium led to accumulation of high amounts of acetylcholine in the cytosol of the infected cells. The neurotransmitter was not released by Sf9 cells in response to membrane depolarization or on ionophore-mediated calcium entry. Some acetylcholine, which most likely originated from cell death inherent to viral infection, accumulated in the culture medium. The infected insect cells, which synthesize and store neurotransmitter, provide a new and convenient model for analyzing synaptic transmission at the molecular level.     

Molecular characterization of a two-domain form of the neuronal voltage-gated P/Q-type calcium channel alpha(1)2.1 subunit

We characterized the neuronal two-domain (95kD-alpha(1)2.1) form of the alpha(1)2.1 subunit of the voltage-gated calcium channels using genetic and molecular analysis. The 95kD-alpha(1)2.1 is absent in neuronal preparations from CACNA1A null mouse demonstrating that alpha(1)2.1 and 95kD-alpha(1)2.1 arise from the same gene. A recombinant two-domain form (alpha(1AI-II)) of alpha(1)2.1 associates with the beta subunit and is trafficked to the plasma membrane. Translocation of the alpha(1AI-II) to the plasma membrane requires association with the beta subunit, since a mutation in the alpha(1AI-II) that inhibits beta subunit association reduces membrane trafficking. Though the alpha(1AI-II) protein does not conduct any voltage-gated currents, we have previously shown that it generates a high density of non-linear charge movements [Ahern et al., Proc. Natl. Acad. Sci. USA 98 (2001) 6935-6940]. In this study, we demonstrate that co-expression of the alpha(1AI-II) significantly reduces the current amplitude of alpha(1)2.1/beta(1a)/alpha(2)delta channels, via competition for the beta subunit. Taken together, our results demonstrate a dual functional role for the alpha(1AI-II) protein, both as a voltage sensor and modulator of P/Q-type currents in recombinant systems. These studies suggest an in vivo role for the 95kD-alpha(1)2.1 in altering synaptic activity via protein-protein interactions and/or regulation of P/Q-type currents.     

A novel large-scale production system for modified basement membrane matrices using gene-swapped parietal endoderm cells.

Parietal endoderm-like cells, including Engelbreth-Holm-Swarm tumor and differentiated F9 embryonal carcinoma cells, produce huge amounts of basement membrane components, including laminin-1 (alpha1beta1gamma1). We employed a double-lox system-based gene-swapping strategy in F9 cells to replace the laminin alpha1 gene with a laminin alpha5 minigene. The gene-swapped F9 cells secreted laminin-10 (alpha5beta1gamma1) consisting of the exogenous alpha5 subunit and endogenous beta1 and gamma1 subunits on differentiation. The laminin-10 concentration in the conditioned medium exceeded 10 mg/l, which is 10-fold higher than the concentrations achieved by conventional recombinant expression systems. The gene-swapped F9 cells deposited basement membrane-like matrices containing laminin-10 on culture dishes, offering a novel microenvironment for in vitro cell manipulation.     

Selective reconstitution and recovery of functional gamma-secretase complex on budded baculovirus particles

In vitro reconstitution of functions of membrane proteins is often hampered by aggregation, misfolding, or lack of post-translational modifications of the proteins attributable to overexpression. To overcome this technical obstacle, we have developed a method to express multimeric integral membrane proteins in extracellular (budded) baculovirus particles that are released from Sf9 cells co-infected with multiple transmembrane proteins. We applied this method to the reconstitution of gamma-secretase, a membrane protease complex that catalyzes the intramembrane cleavage of beta-amyloid precursor protein to release Abeta peptides, the major component of amyloid deposits in Alzheimer brains as well as of Notch. When we co-infected Sf9 cells with human presenilin 1 (PS1), nicastrin, APH-1a, and PEN-2, a high-molecular-weight membrane protein complex that contained PS1 exclusively in its fragment form associated with three other cofactor proteins was reconstituted and recovered in a highly gamma-secretase-active state in budded virus particles, whereas nonfunctional PS1 holoproteins massively contaminated the parental Sf9 cell membranes. The relative gamma-secretase activity (per molar PS1 fragments) was concentrated by approximately 2.5 fold in budded virus particles compared with that in Sf9 membranes. The budded baculovirus system will facilitate structural and functional analyses of gamma-secretase, as well as screening of its binding molecules or inhibitors, and will also provide a versatile methodology for the characterization of a variety of membrane protein complexes.     

The interaction of general anaesthetics and neurosteroids with GABA(A) and glycine receptors.

The positive allosteric effects of four structurally distinct general anaesthetics (propofol, pentobarbitone, etomidate and 5alpha-pregnan-3alpha-ol-20-one [5alpha3alpha]) upon recombinant GABA(A) (alpha6beta3gamma2L), invertebrate GABA (RDL) and glycine (alpha1) receptors expressed in Xenopus laevis oocytes have been determined. Propofol and pentobarbitone enhanced agonist (GABA or glycine as appropriate) evoked currents at GABA(A), glycine, and RDL receptors, whereas etomidate and 5alpha3alpha were highly selective for the GABA(A) receptor. Utilizing site-directed mutagenesis, we demonstrate that the nature of the interaction of propofol, pentobarbitone and etomidate (but not 5alpha3alpha) with mammalian and invertebrate ionotropic GABA receptors depends critically upon the nature of a single amino acid located in the second transmembrane region (TM2) of these receptors. These data are discussed in relation to the specificity of action of general anaesthetics.     

Point mutation in the first transmembrane region of the beta 2 subunit of the gamma--aminobutyric acid type A receptor alters desensitization kinetics of gamma--aminobutyric acid- and anesthetic-induced channel gating

A conserved glycine residue in the first transmembrane (TM1) domain of the beta2 subunit has been identified to be involved with desensitization induced by gamma-aminobutyric acid (GABA) and anesthetics. Recombinant GABA(A) receptors expressed in Sf9 cells were recorded using semi-fast agonist application. Upon direct activation by GABA or anesthetics, the main effect of the TM1 point mutation on the beta2 subunit (G219F) was to slow the time constant (tau) of desensitization. At GABA concentrations eliciting maximum currents, the corresponding median tau values were 0.87 s (25-75% interval (0.76; 1.04 s)), 0.93 s (0.76; 1.23 s), and 1.36 s (1.17; 1.57 s) for alpha1beta2gamma2, alpha1(G223F)beta2gamma2, and alpha1beta2(G219F)gamma2, respectively. The tau value for the beta2-mutant receptor was significantly longer than alpha1beta2gamma2 (p < 0.01) and alpha1(G223F)beta2gamma2 (p < 0.05). For pentobarbital-induced currents (500 microm), the corresponding median tau values were 1.36 s (0.81; 1.41 s), 1.47 s (1.31; 2.38 s), and 2.82 s (2.21; 5.56 s) for alpha1beta2gamma2, alpha1(G223F)beta2gamma2, and alpha1beta2(G219F)gamma2, respectively. The tau value for the beta2-mutant receptor was significantly longer than that for alpha1beta2gamma2 (p < 0.01). The present findings suggest that this TM1 glycine residue is critical for the rate at which desensitization occurs and that both GABA and intravenous anesthetics implement an analogous pathway for generating desensitization.     

肌动蛋白在AcMNPV向细胞外运输过程中作用的初步研究

本实验利用AcMNPV(Autographa californica multiple nuclear polyhedrosis virus,AcMNPV)的bac-to-bac系统构建了两种重组病毒,即含GFP-actin融合基因的重组病毒AcMNPV-GFP-actin和含GFP基因的重组病毒AcMNPV-GFP。用这两种重组病毒分别感染Sf9细胞,以AcMNPV-GFP感染的Sf9细胞为对照,用共聚焦激光扫描显微镜观察了绿色荧光在病毒感染过程中的分布情况。由于肌动蛋白和绿色荧光蛋白是共定位的,所以绿色荧光的分布情况就是肌动蛋白的分布情况。实验中观察发现,AcMNPV-GFP感染的Sf9细胞中的绿色荧光,在整个感染过程中是弥散分布的,而AcMNPV-GFP-actin感染Sf9细胞后24172h这段时间内,肌动蛋白最初聚集在细胞核内,随后逐渐由细胞核向细胞质转移,最后完全聚集于细胞膜。根据实验结果,推测肌动蛋白可能参与了AcMNPV出芽型病毒粒子(BV)由细胞核向细胞质运输以及从细胞膜排出的过程。