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.     

Screening of transformed insect cell lines for recombinant protein production

Nine insect cell lines were evaluated for their potential as host systems for recombinant protein production using a new expression vector permitting the continuous high-level expression of secreted glycoproteins by transformed insect cells (Farrell et al., 1998). As a means of preliminary screening, all nine insect cell lines were transfected with the green fluorescence protein. Growth in static and suspension culture was then examined as a further method of screening. On the basis of their transfection efficiencies and cell growth characteristics, five insect cell lines, Bm5, High Five, IPLB-LdFB, IZD-MB-0503, and Sf-21, were selected for stable transformation to produce granulocyte-macrophage colony-stimulating factor (GM-CSF). These five cell lines were stably transformed using an antibiotic resistance scheme and evaluated as a polyclonal population. Increasing the antibiotic concentration was found to cause not only a decrease in the specific growth rate but also an increase in the specific protein production rate and final GM-CSF concentration. The transformed High Five cells exhibited by far the greatest specific protein production rate of 5.1 x 10(-)(6) microgram/(cell.h), resulting in the highest final GM-CSF concentration of 22.8 mg/L when grown in static culture. One cloned High Five cell line produced a GM-CSF concentration of 46 mg/L in static culture and 27 mg/L in suspension culture.     

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.     

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.     

Production of a self-activating CBM-factor X fusion protein in a stable transformed Sf9 insect cell line using high cell density perfusion culture

Factor Xa is a serine protease, whose high selectivity can be used to cleave protein tags from recombinant proteins. A fusion protein comprised of a self-activating form of factor X linked to a cellulose-binding module, saCBMFX, was produced in a stable transformed Sf9 insect cell line. The activity of the insect cell produced saCBMFX was higher than the equivalent mammalian cell produced material. A 1.5 l batch fermentation reached a maximum cell concentration of 1.6 × 10⁷ cells ml⁻¹ and a final saCBMFX concentration of 4 mg l⁻¹. The production of saCBMFX by this cell line was also analyzed in a 1.5 l perfusion system using an ultrasonic filter as a cell-retention device for flow rates up to 3.5 l day⁻¹. The cell-retention efficiency of an air backflush mode of acoustic filter operation was greater than 95% and eliminated the need to pump the relatively shear sensitive insect cells. In the perfusion system over 4 × 10⁷ Sf9 cells ml⁻¹ were obtained with a viability greater than 80%. With a doubling of viable cell concentration from 1.5 to 3 × 10⁷ cells ml⁻¹ the saCBMFX production rate was doubled to 6 mg l⁻¹ day⁻¹. The saCBMFX volumetric productivity of the perfusion system was higher than the batch fermentations (0.6 mg l⁻¹ day⁻¹) by an order of magnitude.     

口蹄疫病毒NSP 3ABC基因在昆虫细胞中的分泌表达及其活性检测

用设计的特异引物,扩增得到了N-端带有6×His编码序列的口蹄疫病毒完整3ABC基因序列,并将其亚克隆入带有蜂毒溶血肽序列的穿梭质粒pMelBac-B中,构建了重组质粒pMel-3ABC。将该重组质粒与杆状病毒骨架DNABac-N-BlueTM共转染Sf9昆虫细胞,通过噬斑筛选和PCR鉴定,获得了含有目的基因的重组杆状病毒。重组病毒感染Sf9昆虫细胞,采用通过SDS-PAGE和Western blot检测,证明目的基因在昆虫细胞中得到了正确的表达,表达产物分泌至细胞培养上清中,并具有良好的生物活性。表达的目的蛋白经过镍柱亲和层析法纯化后,用间接ELISA方法检测与口蹄疫病毒感染动物血清的反应性,证明表达目的蛋白与感染动物血清有很好的反应性而与正常动物以及免疫动物血清不发生反应。该研究为建立一种更加敏感和特异的口蹄疫病毒感染动物与疫苗免疫动物的鉴别诊断方法奠定了基础。     

Production of N-acetylgalactosaminyl-transferase 2 (GalNAc-T2) fused with secretory signal Igκ in insect cells

The human UDP-N-acetyl-α-d-galactosamine:polypeptide N-acetylgalactosaminyl-transferase 2 (GalNAc-T2) is one of the key enzymes that initiate synthesis of hinge-region O-linked glycans of human immunoglobulin A1 (IgA1). We designed secreted soluble form of human GalNAc-T2 as a fusion protein containing mouse immunoglobulin light chain kappa secretory signal and expressed it using baculovirus and mammalian expression vectors. The recombinant protein was secreted by insect cells Sf9 and human HEK 293T cells in the culture medium. The protein was purified from the media using affinity Ni-NTA chromatography followed by stabilization of purified protein in 50mM Tris-HCl buffer at pH 7.4. Although the purity of recombinant GalNAc-T2 was comparable in both expression systems, the yield was higher in Sf9 insect expression system (2.5mg of GalNAc-T2 protein per 1L culture medium). The purified soluble recombinant GalNAc-T2 had an estimated molecular mass of 65.8kDa and its amino-acid sequence was confirmed by mass-spectrometric analysis. The enzymatic activity of Sf9-produced recombinant GalNAc-T2 was determined by the quantification of enzyme-mediated attachment of GalNAc to synthetic IgA1 hinge-region peptide as the acceptor and UDP-GalNAc as the donor. In conclusion, murine immunoglobulin kappa secretory signal was used for production of secreted enzymatically active GalNAc-T2 in insect baculovirus expression system.     

High-level expression of secreted glycoproteins in transformed lepidopteran insect cells using a novel expression vector

An expression cassette for continuous high-level expression of secreted glycoproteins by transformed lepidopteran insect cells has been developed as an alternative to baculovirus and mammalian cell expression systems. The expression cassette utilizes the promoter of the silkmoth cytoplasmic actin gene to drive expression from foreign gene sequences, and also contains the ie-1 transactivator gene and the HR3 enhancer region of BmNPV to stimulate gene expression. Using an antibiotic-resistance selection scheme, we have cloned a Bm5 (silkmoth) cell line overexpressing the secreted glycoprotein juvenile hormone esterase (JHE-KK) at levels of 190 mg/L in batch suspension cultures. A baculovirus (AcNPV) expressing the same gene under the control of the p10 promoter of AcNPV produced only 4 mg/L active JHE in static cultures of infected Sf21 cells. A cloned Bm5 cell line overexpressing a soluble isoform of the alpha-subunit of the granulocyte-macrophage colony stimulating factor receptor (solGMRalpha) was also generated and produced five times more solGMRalpha in static cultures than a cloned BHK cell line obtained by transformation with a recombinant expression cassette utilizing the human cytomegalovirus (CMV) enhancer-promoter system. Finally, we show that recombinant protein expression levels in transformed Bm5 cells remain high in serum-free media, that expression is stable even in the absence of antibiotic selection, and that lepidopteran cells other than Bm5 may be used equally efficiently with this new expression cassette for producing recombinant proteins.     

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.     

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.     

Analysis of an insect neuropeptide, Schistocerca gregaria ion transport peptide (ITP), expressed in insect cell systems

We have produced an active form of Schistocerca gregaria ion transport peptide (ITP) in an insect cell expression system. Transformed Drosophila Kc1 cells secreted a form of ITP into the cell culture medium that was proteolytically cleaved correctly at the amino (N)-terminus. Concentrated culture supernatant from transformed Kc1 and Hi5 cells had high biological activity when tested on isolated locust ilea. Conversely, ITP expressed by baculovirus-infected Sf9 cells was larger in size and had decreased specific activity compared to ITP produced by Kc1 cells due to incorrect cleavage of the peptide at the N-terminus in the baculovirus system. This demonstrates how processing of the secreted foreign protein (ITP) expressed under the late polyhedrin promoter is compromised in a baculovirus-infected cell. Transient transformation of Kc1 cells results in supernatants containing two forms of ITP; one form (A) co-elutes with synthetic ITP and the other form (B) has reduced electrophoretic mobility. In contrast, in stably transformed Kc1 cell supernatant, ITP is expressed in a single form, which has the same electrophoretic mobility and specific biological activity as form A produced by transiently transformed Kc1 cells. Arch.     

Pharmacological characterization and immunoaffinity purification of metabotropic glutamate receptor from Drosophila overexpressed in Sf9 cells

Metabotropic glutamate receptors (mGluRs) play important roles in the function and regulation of the central nervous system. Structural studies are necessary for the detailed understanding of their mechanisms of action. However, overexpression and purification of functional receptors in quantities required for these studies proves to be a major challenge. In this study we report the overexpression of a Drosophila melanogaster mGluR (DmGluRA) by using a baculovirus-insect cell expression system. Expression was tested in two different insect cell hosts (Sf9 and Hi5) and analyzed by performing expression kinetics. Pharmacological characterization of the recombinant receptor by radioactive glutamate binding assays showed a profile similar to group II mGluRs, as previously reported, when the receptor was expressed in mammalian systems. The B(max) value reached 11 pM receptor/mg Sf9-membrane protein. A monoclonal antibody against DmGluRA was generated by genetic immunization and used to purify the receptor.     

苜蓿丫纹夜蛾核型多角体病毒fp25k基因的改造及用于稳定转化Sf9昆虫细胞系

【目的】苜蓿丫纹夜蛾核型多角体病毒(Autographa californica multicapsid nucleopolyhedrovirus, AcMNPV)在昆虫细胞中连续传代以后,会出现从多多角体表型到少多角体表型的转变,这种转变与一个编码25 kDa蛋白的基因（few polyhedra, fp25k）突变失活有关。杆状病毒的fp25k基因突变后产生的包涵体（多角体）衍生病毒粒子变少而出芽型病毒粒子增加,会降低外源基因在杆状病毒表达系统中的表达。本研究拟改造fp25k并构建能持续表达FP25K蛋白的转基因昆虫细胞,以克服杆状病毒, fp25k基因易突变导致的表达系统缺陷。【方法】本实验通过改造杆状病毒, fp25k基因在细胞传代过程中容易产生突变的位点,得到 mfp25k,并将mfp25k构建到pIZT/V5-His载体上,重组载体转染Sf9细胞,通过Zeocin抗性筛选逐步淘汰未成功转化的Sf9细胞。【结果】成功改造AcMNPV的, fp25k基因的TTAA位点,得到pIZT-mfp25k重组载体。重组载体成功转染Sf9细胞,通过Zeocin抗性筛选后获得基因组中带有mfp25k的Sf9-mfp25k稳定的转基因细胞系。用AcMNPV的fp25k突变型病毒AcP2感染转基因Sf9-mfp25k昆虫细胞系与正常Sf9细胞,发现转基因Sf9-mfp25k昆虫细胞系表达的FP25K蛋白可弥补病毒, fp25k基因突变的缺陷。【结论】建立的Sf9-mfp25k转基因昆虫细胞系通过细胞表达FP25K蛋白,可以弥补因杆状病毒fp25k基因突变产生的缺陷。研究结果为构建稳定的杆状病毒 昆虫细胞表达系统提供了新途径。     

A cell sorting protocol for selecting high-producing sub-populations of Sf9 and High Five™ cells

Insect cell lines such as Sf9 and High Five™ have been widely used to produce recombinant proteins mostly by the lytic baculovirus vector system. We have recently established an expression platform in Sf9 cells using a fluorescence-based recombinase mediated cassette exchange (RMCE) strategy which has similar development timelines but avoids baculovirus infection. To expedite cell engineering efforts, a robust fluorescence-activated cell sorting (FACS) protocol optimized for insect cells was developed here. The standard sorting conditions used for mammalian cells proved to be unsuitable, resulting in post-sorting viabilities below 10% for both cell lines. We found that the extreme sensitivity to the shear stress displayed by Sf9 and High Five™ cells was the limiting factor, and using Pluronic F-68 in the cell suspension could increase post-sorting viabilities in a dose dependent manner. The newly developed protocol was then used to sort stable populations of both cell lines tagged with a DsRed-expressing cassette. Before sorting, the average fluorescence intensity of the Sf9 cell population was 3-fold higher than that of the High Five™ cell population. By enriching with the 10% strongest DsRed-fluorescent cells, the productivity of both cell populations could be successfully improved. The established sorting protocol potentiates the use of RMCE technology for recombinant protein production in insect cells.     

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.     

Expression of recombinant human GM2-activator protein in insect cells: purification and characterization by mass spectrometry

The GM2-activator protein (GM2AP) is a small non-enzymatic cofactor assisting the enzyme beta-hexosaminidase A in the lysosomal degradation of ganglioside GM2. Mutations in the gene encoding this glycoprotein lead to a fatal neurological disorder, the AB variant of GM2-gangliosidoses. In this paper, we describe the overexpression of GM2AP in Sf21 cells using both the baculovirus expression vector system (BEVS) and a non-lytic, plasmid-based insect cell expression system (InsectSelect). For the BEVS, the cDNA encoding human GM2AP-preproprotein was cloned in the expression vector pAcMP3. The recombinant virus generated by cotransfection with linearized baculovirus DNA was used to infect Sf21 cells. For the non-lytic expression system, the cDNA of GM2AP was inserted into the vector pIZ/V5-His, which was used for the constitutive expression in stably transformed Sf21 cells. As it was shown by immunoblot analysis of the cell culture supernatant, in both expression systems the GM2AP precursor protein was efficiently secreted into the medium. Following expression in the BEVS, the GM2AP was purified by sequential chromatography on Ni-NTA-agarose and Con A-Sepharose, resulting in a yield of up to 9 mg purified protein from 1L of cell culture supernatant. Following expression in stably transformed insect cells, the secreted protein was first concentrated by cation-exchange and purified by metal-ion affinity chromatography, with a yield of 0.1 mg/L cell culture supernatant. The biological activity of the recombinant protein was demonstrated by its ability to stimulate the hexosaminidase A-catalyzed degradation of ganglioside GM2, and the homogeneity and glycosylation were assessed by ESI-TOF mass spectrometry. While the protein expression in the BEVS led to partly glycosylated and partly non-glycosylated protein, the stably transformed cells produced only glycosylated protein. In both expression systems, the glycosylation was found to be identical and corresponded to the structure (GlcNAc)(2)Fuc(Man)(3).     

Differences in the expression and localization of human melanotransferrin in lepidopteran and dipteran insect cell lines

The ability of several lepidopteran and dipteran insect cell lines to express human melanotransferrin (p97), a glycosyl phosphatidylinositol (GPI)-anchored, iron-binding sialoglycoprotein, was assessed. Spodoptera frugiperda-derived (Sf9) cell lines, transformed with the p97 gene under control of a baculovirus immediate-early promoter, were able to constitutively express the protein and correctly attach it to the outer cell membrane via a GPI anchor as demonstrated by PI-PLC treatment. In contrast, stable constitutive expression could not be demonstrated with cell lines derived from either Drosophila melanogaster (Kc1 or SL2) or Lymantria dispar (Ld652Y) despite the observation that p97 could be detected in transient expression assays. This may indicate that the long-term expression and accumulation of p97 is inhibitory to Drosophila cells, possibly due to improper localization of the protein and resultant competition for cellular iron. In stably transformed Sf9 cells, p97 was expressed on the cell at a maximal level of 0.18 microg/10(6) cells and was secreted at a maximal rate of 9.03 ng/10(6) cells/h. This level was comparable to the amount expressed with the baculovirus system (0.37 microg/10(6) cells and 31.2 ng/10(6) cells/h) and transformed CHO cells (0.88 microg/10(6) cells and 7.8 ng/10(6) cells/h). Deletion of the GPI cleavage/attachment site resulted in an eightfold increase in the secretion rate of p97, when compared to the intact construct suggesting that the rate-limiting step involves processing of the GPI anchor.     

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.     

Production of recombinant proteins by baculovirus-infected gypsy moth cells.

An experimental study was undertaken to evaluate alternative insect cell lines to Sf9 [from Spodoptera frugiperda (fall armyworm)] for the production of recombinant proteins. Insect cell lines from two different organisms were considered: IPLB-LdEIta (LdEIta) from Lymantria dispar (gypsy moth) and IPLB-HvT1 (HvT1) from Heliothis virescens (tobacco budworm). Both LdEIta and HvT1 produced higher total activity levels of recombinant beta-galactosidase in monolayer culture than Sf9 after infection with the Autographa californica nuclear polyhedrosis virus (AcMNPV). However, only LdEIta generated a product yield (activity per milligram of total protein) which exceeded that of Sf9 (by 25%), so its growth and production characteristics were investigated in depth. LdEIta generated production levels and yields of a recombinant rotaviral protein, VP4, which exceeded those of Sf9 by 84 and 38%, respectively. In suspension culture, the LdEIta cells grew as aggregates with a doubling time several hours longer than Sf9, but the recombinant product yields of LdEIta were still higher than Sf9 by 38% in this culture environment. beta-Galactosidase expression rates and cell death rates suggested that the difference in productivity between the two hosts was due to the ability of LdEIta to survive the baculovirus infection and produce recombinant proteins longer than Sf9. The presence of LdEIta aggregates in suspension culture may be used as a method to separate live cells from dead cells, labile product, and spent medium in recombinant protein production processes.