Toxicity,membrane binding and uptake of the <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis> agglutinin (SSA) in different insect cell lines

The fungal lectin purified from Sclerotinia sclerotiorum, further referred to as Sclerotinia sclerotiorum agglutinin or SSA, possesses insecticidal activity against important pest insects such as pea aphids (Acyrthosiphon pisum). This paper aims at a better understanding of its activity at cellular level. Therefore, different insect cell lines were treated with SSA. These cell lines were derived from different tissues and represent the three major orders of insects important in agriculture: CF-203 (midgut Choristoneura fumiferana, Lepidoptera), GUTAW1 (midgut, Helicoverpa zea, Lepidoptera), High5 cells (ovary, Trichoplusia ni, Lepidoptera), Sf9 (ovary cells from Spodoptera frugiperda, Lepidoptera), S2 (hemocyte, Drosophila melanogaster, Diptera), and TcA (whole body, Tribolium castaneum, Coleoptera). Although the sensitivity to SSA differs between the cell lines, SSA clearly showed toxicity in all six cell lines with median effect concentrations (EC₅₀) ranging between 9 and 42 μg/ml. An in-depth analysis of the mechanism of uptake in the cells revealed superior amounts of FITC-SSA at the membrane of CF-203 cells compared to Sf9 cells, while a similar small amount of SSA was internalized in both cell lines. Pre-incubation with the clathrin-mediated endocytosis inhibitor phenylarsine oxide inhibited the internalization of SSA into the CF-203 and Sf9 cells with a respective reduction of 6- and 1.7-fold. The data are discussed in relation to the importance of cellular uptake mechanism for SSA binding and cytotoxicity.     

Comparative characterization of growth and recombinant protein production among three insect cell lines with four kinds of serum free media

Three insect cell lines, Sf9, Sf21 and Tn5B1-4, and four different kinds of serum free media (SFM), Sf 900 II, EX-CELL 420, EX-CELL 405 and Express Five, were used to compare the nutrient consumption, byproduct formation, production of recombinant protein and protease activity in suspension cultures. The Sf 900 II SFM was appropriate for the cell growth and protein production of the Sf9 and Sf21 cell lines. When the Tn5B1-4 cell line was grown in the Express Five SFM, the specific growth rate was 1.6 fold higher than those of either the Sf9 or Sf21 cell lines. The glucose and glutamine consumption rates per cells, were 4 and 2.3. times higher than those of the Sf9 cell line, respectively. The overall yield coefficients of the lactate and ammonium ion were 2.8 and 1.5 times higher compared to those of the Sf9 cell line, respectively. The maximum specific β-galactosidase production rate was 4.5. fold that of the Sf9 cell line, a 3 times higher protease activity per cell.     

Expression of Functional Human Muscarinic M2 Receptors in Different Insect Cell Lines

Abstract

Human M2 receptors were expressed using the baculovirus expression system in three different insect cell lines: Sf9, Sf21 and High5. The level of expression was slightly increased in Sf21 cells versus Sf9 cells. In contrast, High5 cells were not able to produce more recombinant protein than Sf9. We also show that in both Spodoptera frugiperda cell lines a peak of expression was reached after 6 days of infection, whereas in High5 cells, the maximum of expression occurred after 3 days. Immunodetection of m2 muscarinic receptor clearly shows that the expressed protein undergoes significant proteolysis in both the Sf9 and High5 cells, whereas in the Sf21 cells this phenomenon was less detectable. Additionally, we show that in all three cell lines, the expressed recombinant receptor was functional in that it was able to stimulate GTPγS binding in the presence of exogenous G-proteins. Analysis of the population of G-proteins (Gαi₁ Gα_o and Gβcommon) in Sf21 and High5 cells is provided.     

Estrogen receptor beta yield from baculovirus lytic infection is higher than from stably transformed Sf21 cells

The production of estrogen receptors (ER) in cultured insect cells is advantageous because these cells are relatively easy to culture and they perform post-translation modifications necessary for protein stability and function. There are three options for protein expression in insect cells: transient transfection, lytic baculovirus infection, or transfection followed by selection to create stable cell lines. Stable transfection has been promoted to be advantageous for the production of recombinant proteins because no re-infection is required, which might provide better lot-to-lot reproducibility in protein production. In this paper, we demonstrate that lytic baculovirus infection of Sf21 cells yields approximately tenfold more bioactive ERβ than cells stably transformed with pIZ/V5-His plasmid under OpIE2 promoter. We provide the first evidence that stable expression of recombinant human ERβ decreases the proliferation of Sf21 cells by inhibition of cell replication in a ligand-independent manner. These results mirror findings in breast cancer cells showing that an increase in ERβ expression decreases cell proliferation. We conclude that baculovirus infection of Sf21 cells is better for human ERβ production than stable-transformation of Sf21 cells.     

Maximizing production of estrogen receptor beta with the baculovirus expression system

Steroid hormone/nuclear receptor expression in cultured insect cell lines is routinely driven by a baculovirus vector. An advantage of the baculovirus production of these receptors is that large amounts of functional receptors are obtained for subsequent in vitro studies. Most laboratories produce nuclear receptors in Spodoptera frugiperda (Sf)9 cells. However, no one has determined whether this cell line is optimal for the production of any nuclear receptor. We compared the time course and level of estrogen receptor beta (ER beta) production from a baculovirus in two S. frugiperda cell lines, IPLB-SF21AE (Sf21) and Sf9, and two Trichloplusia ni cell lines, Tn368 and BTI-TN5b1-4 (High Five). Cells were harvested at various times (0.5-5 days) after infection. ER beta expression and activity was determined by specific [3H]estradiol (E2) binding, Western blot analysis, and estrogen response element (ERE) binding in vitro. The highest functional, bioactive ER beta expression both at the earliest time after infection and in the amount of ER beta produced/cell was with the Sf21 cell line. Baculovirus expressed ER beta-bound EREs with high affinity in a DNA sequence-dependent manner. We conclude that Sf21 cells are the best-suited cells for ER beta production.     

Pyridalyl inhibits cellular protein synthesis in insect, but not mammalian, cell lines

To gain insight into the mechanism of action and selectivity of the insecticidal activity of pyridalyl, the cytotoxicity of pyridalyl against various insect and mammalian cell lines was characterized by measuring the inhibition of cellular protein synthesis. When the effect of pyridalyl on the cellular protein synthesis in Sf9 cells was evaluated by measuring the incorporation of [(3)H]leucine, rapid and significant inhibition of protein synthesis was observed. However, pyridalyl did not inhibit protein synthesis in a cell-free protein synthesis system, indicating that pyridalyl does not directly inhibit protein synthesis. No obvious cytotoxicity was observed against any of the mammalian cell lines tested. In the case of insect cell lines, remarkable differences in the cytotoxicity of pyridalyl were observed: the highest cytotoxicity (IC50 mM) was found against Sf9 cells derived from Spodoptera frugiperda, whereas no obvious cytotoxicity was observed against BmN4 cells derived from Bombyx mori. Measurements of the insecticidal activity of pyridalyl against Spodoptera litura and B. mori revealed a correlation between the cytotoxicity against cultured cell lines and the insecticidal activity. From these observations, it was concluded that the selective inhibition of cellular protein synthesis by pyridalyl might contribute significantly to the insecticidal activity and the selectivity of this compound.     

Screening of insect cell lines for the production of recombinant proteins and infectious virus in the baculovirus expression system.

Eight cell lines derived from the insects Spodoptera frugiperda, Trichoplusia ni, Mamestra brassicae, and Estigmene acrea were evaluated for recombinant beta-galactosidase and infectious virus production following infection with the baculovirus Autographa californica multiple nuclear polyhedrosis virus (AcMNPV). Production was assessed on a specific (per cell and per microgram of uninfected cellular protein) and on a volumetric (per milliliter) basis. Cell density was found to be an important factor in comparing the cell lines due to a density-dependent inhibition of specific protein and virus production that appeared to result from cell-cell contact. After infection of cells at low-density specific beta-galactosidase production per cell would drop between 3- and 6-fold in five of the eight cell lines when plated on tissue culture plates at near-confluent and confluent cell densities. The cell lines Sf 21 and Sf 9 were least sensitive to cell density. After accounting for cell density effects and differences in cell size, two cell lines, BTI Tn 5B1-4 and BTI TnM, were identified that were superior to the other cell lines, including Sf 21 and Sf 9, in beta-galactosidase production. Optimal volumetric and specific beta-galactosidase production from Tn 5B1-4 and TnM cells was 2-fold and 5-fold higher, respectively, in both cell lines than the optimal production from Sf 9 or Sf 21 cells. The Tn 5B1-4 cell line also had the highest viability of all the cell lines at 3 days postinfection and could be adapted to serum-free media.(ABSTRACT TRUNCATED AT 250 WORDS)     

贴壁培养方式中昆虫细胞的生长限制性因素研究

以昆虫细胞为宿主生产病毒杀虫剂或进行基因工程产品的开发,是动物细胞培养领域十分有吸引力的研究方向。近年来,昆虫细胞的体外培养尽管在培养条件的优化⑴、培养基的开发⑵以及工艺癍程的设计⑶等诸多方面取得了令人鼓舞的进展,但由于对影响细胞生长及代谢的各类限制性因素尚缺乏全面系统的了解,因而目前的技术水平还远不能设计出优化的培养系统以满足产业化的需要。众所周知,细胞的生长和产物的形成是多种环境因素和细胞内复杂代谢反应的综合结果,因此。对生长限制性因素的考察也应有全局观念,即：在重视生化环境(外因)对细胞培养过程影响的同时,也不能忽视细胞株自身性能(内因)对最终培养结果的影响。以往的研究〔4.5〕大多仅就个别营养限制性因素进行孤立地探讨,缺乏从内外因两方面对昆虫细胞培养过程的认识。最近,以微载体技术或堆积床技术贴壁培养昆虫细胞业已证明具有很大的发展前途〔6.7〕。为此．本文以贴壁培养的秋黏虫细胞(IPLB-Sf2l—AE)和粉蚊夜蛾细胞(BTI—Tn一5Bl-4)为研究对象,在考察环境限制性因素的同时,亦从细胞自身特点出发考察了不同细胞株的生长及代谢性能。研究结果可望为贴壁培养技术的深入应用以及培养过程的合理设计提供参考。     

Stable cell lines expressing baculovirus P35: resistance to apoptosis and nutrient stress, and increased glycoprotein secretion

Summary The baculovirus P35 protein is a caspase inhibitor that prevents the induction of apoptosis during infection of Sf21 cells byAutographa californica multicapsid nucleopolyhedrovirus (AcMNPV). P35 inhibits the induction of apoptosis in a broad range of cells and circumstances. In this study, we examined the effects of constitutive cellular P35 expression on the response of cells to stressful culture conditions and on protein production in AcMNPV infected cells. Sf9 cell lines expressing AcMNPV P35 or an epitope-tagged P35 protein were generated using a double selection technique, involving selection in the antibiotic G418, followed by a second round of selection by exposure to actinomycin D, a potent inducer of apoptosis in Sf9 cells. Clonal cell lines were generated and examined for (1) resistance to actinomycin D induced apoptosis, (2) resistance to nutrient deprivation, and (3) baculovirus expression of intracellular and secreted proteins. When compared with Sf9 cells, two P35-expressing cell lines (Sf9^P35AcV5-1 and Sf9^P35AcV5-3) showed increased resistance to actinomycin D-induced apoptosis and a profound resistance to nutrient deprivation. When these cell lines were infected with a recombinant baculovirus expressing a secreted glycoprotein (secreted alkaline phosphatase), expression of the glycoprotein from these cells exceeded that from the parental Sf9 cells and was comparable to expression levels obtained from Tn5B1-4 cells, the best available cell line for high-level expression. Increased levels of protein secretion in Sf9^P35AcV5-1 and Sf9^P35AcV5-3 cells appear to result from a prolonged infection cycle and accumulation of the secreted glycoprotein.     

Comparative recombinant protein production of eight insect cell lines

Summary A recombinantAutographa californica baculovirus expressing secreted alkaline phosphatase (SEAP) gene was used to evaluate the expression of a secreted glycoprotein in eight insect cell lines derived fromSpodoptera frugiperda, Trichoplusia ni, Mamestra brassicae andEstigmene acrea. Because cell density was found to influence protein production, SEAP production was evaluated at optimal cell densities for each cell line on both a per cell and per milliliter basis. On a per cell basis, theT. ni-derived BTI-TN-5B1-4 cells produced a minimum of 20-fold more SEAP than theS. frugiperda-derived Sf9 or Sf21 cell lines and a minimum of 9-fold more than any of the other cell lines growing in serum-containing medium. On a per milliliter basis, BTI-TN-5B1-4 cells produced a minimum of fivefold more SEAP than any of the other cell lines tested. Using cell lines that were adapted to serum-free medium, SEAP yields were the same or better than their counterparts in serum-containing medium. At 3 days postinoculation, extracellular SEAP activity ranged from 59 to 85% of total SEAP activity with cell lines grown in serum-free and serum-containing media.     

Functional comparison between YCF1 and MRP1 expressed in Sf21 insect cells

YCF1 is a yeast vacuole membrane transporter involved in resistance to Cd(2+) and to exogenous glutathione S-conjugate precursors. MRP1 contributes to multidrug resistance (MDR) in tumor cells. MRP1 and YCF1 have extensive amino acid sequence homology (63% amino acid similarity). We expressed MRP1 or YCF1 in insect cell membranes and compared their functions to know more about their structure-function relationships. YCF1 and MRP1 with His epitopes were expressed in Sf21 insect cells; both of them in the plasma membrane. The ATP-dependent transport of [(3)H]LTC(4) in Sf/YCF1-His vesicles was osmotically sensitive and showed saturable kinetics with an apparent K(m) of 758 nM for LTC(4) and 94 microM for ATP which were similar to those in yeast cells. The K(m) of YCF1 for LTC(4) (758 nM) was sevenfold higher than that of MRP1 (108 nM). MK-571 and ONO-1078, reversing agents for MRP1-mediated MDR, considerably inhibited the transport of LTC(4) by both YCF1 and MRP1. However, PAK-104P, a pyridine analog that reverses MDR associated with P-gp and MRP1, inhibited the transporting activity of MRP1 stronger than that of YCF1. KE1, another MDR reversing agent, moderately inhibited the transport of LTC(4) by MRP1 but not that of YCF1. In conclusion, we successfully expressed yeast YCF1 in Sf21 insect cells and found that the localization of the protein was different from that in yeast. The function of YCF1 in Sf21 insect cells was similar but not identical to that of MRP1.     

Constraints on the transport and glycosylation of recombinant IFN-gamma in Chinese hamster ovary and insect cells.

In this study we compare intracellular transport and processing of a recombinant glycoprotein in mammalian and insect cells. Detailed analysis of the N-glycosylation of recombinant human IFN-gamma by matrix-assisted laser-desorption mass spectrometry showed that the protein secreted by Chinese hamster ovary and baculovirus-infected insect Sf9 cells was associated with complex sialylated or truncated tri-mannosyl core glycans, respectively. However, the intracellular proteins were predominantly associated with high-mannose type oligosaccharides (Man-6 to Man-9) in both cases, indicating that endoplasmic reticulum to cis-Golgi transport is a predominant rate-limiting step in both expression systems. In CHO cells, although there was a minor intracellular subpopulation of sialylated IFN-gamma glycoforms identical to the secreted product (therefore associated with late-Golgi compartments or secretory vesicles), no other intermediates were evident. Therefore, anterograde transport processes in the Golgi stack do not limit secretion. In Sf9 insect cells, there was no direct evidence of post-ER glycan-processing events other than core fucosylation and de-mannosylation, both of which were glycosylation site-specific. To investigate the influence of nucleotide-sugar availability on cell-specific glycosylation, the cellular content of nucleotide-sugar substrates in both mammalian and insect cells was quantitatively determined by anion-exchange HPLC. In both host cell types, UDP-hexose and UDP-N-acetylhexosamine were in greater abundance relative to other substrates. However, unlike CHO cells, sialyltransferase activity and CMP-NeuAc substrate were not present in uninfected or baculovirus-infected Sf9 cells. Similar data were obtained for other insect cell hosts, Sf21 and Ea4. We conclude that although the limitations on intracellular transport and secretion of recombinant proteins in mammalian and insect cells are similar, N-glycan processing in Sf insect cells is limited, and that genetic modification of N-glycan processing in these insect cell lines will be constrained by substrate availability to terminal galactosylation.     

Expression of the human steroid 21-hydroxylase gene and its mutant variant C169R in insect cells and functional analysis of expression products

Steroid 21-hydroxylase is a key enzyme of glucocorticoid and mineralocorticoid biosynthesis in the adrenal gland that belongs to the family of microsomal cytochrome P450. The steroid 21-hydroxylase deficiency is the most frequent cause of the congenital adrenal hyperplasia. The human steroid 21-hydroxylase (CYP21 A) and its mutant variant (C 169R) found previously in patient with the classical congenital adrenal hyperplasia were synthesized for the first time in the insect cell lines Sf9 and Hi5 infected by recombinant baculoviruses. Under optimal conditions the level of CYP21A2 production in insect cells achieves 28% of the total microsomal protein. C169R mutation does not effect the synthesis of CYP21 A2 in insect cells and does not prevent the incorporation of the enzyme into the membranes of endoplasmic reticulum. Functional analysis of the mutant enzyme in vitro suggested the virtually complete lack of catalytic activity towards two substrates - progesterone and 17-hydroxyprogesterone.     

Diversity of G proteins in Lepidopteran cell lines: partial sequences of six G protein alpha subunits

The aim of this work was to sample the diversity of G protein alpha subunits in lepidopteran insect cell lines. Here we report the amplification by degenerate PCR of partial sequences representing six G protein alpha subunits from three different lepidopteran insect cell lines. Sequence comparisons with known G protein alpha subunits indicate that the Sf9, Ld and High Five cell lines each contain (at least) one Galpha(q)-like and one Galpha(i)-like Galpha subunit. All six PCR products are unique at the nucleotide level, but the translation products of the three Galpha q-like partial clones (Sf9-Galpha 1, Ld-Galpha 1, and Hi5-Galpha 1) are identical, as are the translation products of the three Galpha i-like partial clones (Sf9-Galpha 2, Ld-Galpha 2, and Hi5-Galpha 2). Both the Galpha(q)-like and Galpha(i)-like translation products are identical to known Galpha subunits from other Lepidoptera, are highly similar (88-98%) to Galpha subunits from other invertebrates including mosquitoes, fruit flies, lobsters, crabs, and snails, and are also highly similar (88-90%) to known mammalian Galpha subunits. Identification of G protein alpha subunits in lepidopteran cell lines will assist in host cell line selection when insect cell lines are used for the pharmacological analysis of human GPCRs.     

Expression analysis of a modified factor X in stably transformed insect cell lines.

A modified Factor X protein was combined with a cellulose-binding domain tag and expressed in insect cell lines. The protein, CBDFX, was expressed and secreted into the medium. Stable, transformed Hi5 and Sf9 insect cell lines were generated and tested for production of secreted CBDFX. The highest Sf9 and Hi5 CBDFX-producing cell lines were scaled up to 2-liter fermentors to evaluate production of this recombinant protein. Secreted protein production levels reached 4 mg/liter for the stable, transformed Hi5 cell line and 18 mg/liter for the stable, transformed Sf9 cell line. The protein was properly processed as determined by amino terminal sequencing and bound well to the cellulose substrate Avicel. In addition the activated recombinant CBDFX(a) was capable of recognizing and efficiently processing a Factor X cleavage site.     

Establishment of insect cell lines expressing green fluorescent protein on cell surface based on AcMNPV GP64 membrane fusion characteristic

Displaying a protein on the surface of cells has been provided a very successful strategy to function research of exogenous proteins. Based on the membrane fusion characteristic of Autographa californica multiple nucleopolyhedrovirus envelope protein GP64, we amplified and cloned N-terminal signal peptide and C-terminal transmembrane domain as well as cytoplasmic tail domain of gp64 gene into vector pIZ/V5-His with multi-cloning sites to construct the cell surface expression vector pIZ/V5-gp64. To verify that the vector can be used to express proteins on the membrane of insect cells, a recombinant plasmid pIZ/V5-gp64-GFP was constructed by introducing the PCR amplified green fluorescent protein (GFP) gene and transfected into insect cell lines Sf9 and H5. The transected cells were screened with zeocin and cell cloning. PCR verification results showed that the GFP gene was successfully integrated into these cells. Green fluorescence in Sf9-GFP and H5-GFP cells was observed by using confocal laser scanning microscopy and immunofluorescence detection indicated that GFP protein was located on the cell membrane. Western blot results showed that a fusion protein GP64-GFP of about 40 kDa was expressed on the membrane of Sf9-GFP and H5-GFP cells. The expression system constructed in this paper can be used for localization and continuous expression of exogenous proteins on insect cell membrane.     

Propagation of Bombyx mori Nucleopolyhedrovirus in nonpermissive insect cell lines

This study addresses the susceptibility of Spodoptera frugiperda (Sf9 and Sf21), Trichoplusia ni (Hi5), and S. exigua (Se301) cells to the Bombyx mori nucleopolyhedrovirus (BmNPV). Although these cells have classically been considered nonpermissive to BmNPV, the cytopathic effect, an increase in viral yield, and viral DNA synthesis by BmNPV were observed in Sf9, Sf21, and Hi5 cells, but not in Se301 cells. Very late gene expression by BmNPV in these cell lines was also detected via beta-galactosidase expression under the control of the polyhedrin promoter. Sf9 cells were most susceptible to BmNPV in all respects, followed by Sf21 and Hi5 cells in decreasing order, while the Se301 cells evidenced no distinct viral replication. This particular difference in viral susceptibility in each of the cell lines can be utilized for our understanding of the mechanisms underlying the host specificity of NPVs.     

Structure of O-glycosidically linked oligosaccharides synthesized by the insect cell line Sf9

The O-glycosidically linked oligosaccharides on the pseudorabies virus (PRV) glycoprotein gp50 synthesized by three different cell lines were studied. The intact membrane protein (gp50) was expressed in Vero cells and in the insect cell line Sf9. In addition, a truncated, secreted form lacking the transmembrane and cytoplasmic domains (gp50T), was expressed in CHO and Sf9 cells. The protein, both in intact and truncated form, synthesized by the two mammalian cells contained only the disaccharide Gal beta 1-3GalNAc, either unsubstituted or substituted with one or two sialic acid residues. By contrast, the major O-linked structure on gp50 and gp50T synthesized by Sf9 cells was the monosaccharide GalNAc. The Sf9 cells also linked lower amounts of Gal beta 1-3GalNAc to gp50 (12%) and gp50T (26%). None of the structures synthesized by Sf9 cells contained sialic acid. Measurements of the two relevant glycosyltransferases revealed that while all three cell lines contain comparable levels of UDP-GalNAc:polypeptide, N-acetylgalactosaminyltransferase activity, there is a greater variation in the levels of UDP-Gal:N-acetylgalactosamine, beta 1-3 galactosyltransferase, with the Sf9 cells containing the lowest level.