An ovarian follicular epithelium protein of the silkworm (Bombyx mori) that associates with the vitelline membrane and contributes to the structural integrity of the follicle

We have cloned and functionally characterized a novel protein, BmVMP30, which is synthesized by the cells of the follicular epithelium of the ovarian follicles of the domesticated silkworm Bombyx mori, secreted from them and associated with the vitelline membrane. BmVMP30 is a 30 kDa protein that bears limited structural features reminiscent of other insect vitelline membrane proteins. Although BmVMP30 does not share pronounced similarities or signature motifs with other reported proteins, its temporal and spatial expression and its behavior throughout oogenesis suggest that it is a novel member of the insect vitelline membrane protein family. The protein is expressed exclusively in the cells of the follicular epithelium during stages -15 to -1 of vitellogenesis, secreted from them and, ultimately, localized at the junction between the oocyte and the eggshell, where the vitelline membrane is located. Treatment of follicles with an antisense oligonucleotide that encompasses the translation initiation codon results in the production of an N-terminally truncated protein and disruption of the integrity of the follicular epithelium. Antisense oligonucleotide treatment, however, has no effect on the implementation of the developmental program that directs the autonomous progression of ovarian follicles through the last stages of vitellogenesis and choriogenesis.

The orphan nuclear receptor BmHR3A of Bombyx mori: hormonal control, ovarian expression and functional properties

Ovarian development in the domesticated silkmoth, Bombyx mori, is induced by the molting hormone 20-hydroxy-ecdysone (20E) shortly after larval-pupal ecdysis. Studies of the ecdysone response in Drosophila and other insects have shown that 20E exerts its effects initially by the induction of a small number of early genes, including the orphan nuclear receptors HR3, that transduce and amplify the hormone signal. Here we show that the silkmoth orphan receptor BmHR3A acts in the 20E-induced regulatory cascade in the ovary during pupal and pharate adult development in a manner different than that observed in the classical ecdysone regulatory hierarchy in Drosophila salivary glands at the end of the third instar. While other isoforms of BmHR3 are induced as early gene products in the ecdysone response, BmHR3A is induced 2 days after 20E administration in the silkmoth ovary and, thus, behaves as late product. The period of accumulation of BmHR3A in ovarian follicular cells occurs during vitellogenesis and coincides with the period of transcriptional expression of the ESP (egg-specific protein) gene, whose product constitutes a major component of the egg yolk, while it is reciprocal to the period of expression of BmGATAbeta, a gene encoding a regulator of late chorion gene expression. Bandshift experiments demonstrate that BmHR3A binds specifically to RORE (Retinoic acid-related Orphan receptor Response Element)-like sequences in the promoters of both genes, thus suggesting a direct role for BmHR3A in regulating the expression of BmGATAbeta and ESP genes during vitellogenesis. Finally, we show that BmHR3A functions as a constitutive transcriptional activator in a B. mori derived cell line. We propose that BmHR3A may function as a regulator of vitellogenesis in the silkmoth ovary.

Secretion of cytoplasmic and nuclear proteins from animal cells using novel secretion modules

Production of recombinant proteins that are not secreted outside the producing cells usually requires purification steps that can result in significant yield reductions and loss of biological activity. Using insect cells as a model system to devise the means for secreting recombinant proteins that are not normally destined for secretion outside the producing cells, we initially examined the ability of an insect-specific signal peptide sequence to direct secretion of two intracellular proteins (the cytoplasmic enzyme chloramphenicol acetyl transferase [CAT] and the nuclear protein Bombyx mori chorion factor 1 [BmCF1]) expressed in transfected silkmoth cells. Although this signal sequence functioned efficiently as a chimera with normally secreted proteins, it failed to secrete CAT and BmCF1, suggesting that additional signals are required for passage of these polypeptides through the secretion pathway. For this reason, we also generated a secretion module consisting of the secreted protein juvenile hormone esterase (JHE), a spacer region containing a histidine tag and an endopeptidase cleavage site, to which coding sequences of choice can be cloned as C-terminal extensions. In C-terminal fusions with the CAT and BmCF1 open reading frames, the N-terminal JHE moiety was able to provide all the signals necessary for secretion of CAT and BmCF1 into the extracellular environment. The histidine tag present in the spacer region allowed purification of fusion proteins by metal affinity chromatography under nondenaturing conditions, and the enteropeptidase cleavage site was recognized and cleaved by the cognate protease causing the release of the intracellular proteins from the secretion module. We also show that another secreted protein, human granulocyte-macrophage colony stimulating factor (GM-CSF) can substitute for JHE in the secretion module and that these secretion modules can function in mammalian cells.

Mariner (Mos1) transposase and genomic integration of foreign gene sequences in Bombyx mori cells

Widespread occurrence in insects and the capacity to transpose in the absence of host-derived factors means that mariner-like elements are considered to be attractive candidates for the development of a universal insect genetic transformation system. Here we show that the Mos1 mariner element of Drosophila mauritiana is capable of mediating excision and transposition events in a silkmoth (Bombyx mori) derived tissue culture cell line (Bm5 cells). Plasmid rescue assays, in combination with Southern hybridization and polymerase chain reaction (PCR) analyses, confirm that the Mos1 transposase can mediate excision of DNA sequences, inserted between terminally repeated sequences recognized by the transposase, and integration into the chromosomal DNA of the Bm5 cells. In addition to chromosomal integration events, inter- and intraplasmid transposition and target element excision events were also detected. Approximately 50% of the plasmids recovered from plasmid rescue assays were found to contain the 'signature' of Mos1-specific excision and/or integration events, indicating that the mariner transposase functions efficiently in the Bombyx cells. Because mariner-induced excision and integration events are strictly dependent on the presence of a co-transfected Mos1 transposase expression vector, it is clear that the multiple copies of endogenous mariner-like elements (Bmmar1) that exist in the Bombyx genome are neither functional nor do they interfere with the efficiency of the transposition process. Thus, the Mos1 element and, probably, mariner elements, in general, hold great promise for the development of genetic transformation systems for lepidopteran insects.

Determinants of the functional interaction between the soluble GM-CSF receptor and the GM-CSF receptor beta-subunit

The GM-CSF receptor consists of a GM-CSF specific low affinity alpha-subunit (GMRalpha) and a beta-subunit (betac) that associates with GMRalpha in the presence of GM-CSF to form a high-affinity complex. A splice variant soluble isoform of GMRalpha (solalpha) consists of the extracellular domain of GMRalpha and a unique 16-amino acid C-terminal domain. Exogenously administered solalpha is unable to associate with betac on the cell surface either in the presence or absence of GM-CSF. However, paradoxically, co-expression of solalpha with betac results in the ligand-independent association of solalpha with betac on the cell surface via the C-terminal domain of solalpha. To study the interaction and functional characteristics of the solalpha-betac complex we engineered a soluble betac-subunit (ECDbeta) and expressed it alone and with solalpha. Co-expressed but not independent sources of solalpha and ECDbeta could be co-precipitated in the absence of ligand demonstrating the extracellular domain of betac was sufficient for association with solalpha upon co-expression. However, independent sources of solalpha could associate with ECDbeta in the presence of GM-CSF as could a C-terminal deficient solalpha mutant (ECDalpha) and the addition of ECDbeta to ECDalpha and GM-CSF was associated with a conversion from a low- to high-affinity ligand-receptor complex.

Minimal domain requirement for cation transport by the potassium-dependent Na/Ca-K exchanger. Comparison with an NCKX paralog from Caenorhabditis elegans

The retinal rod Na/Ca-K exchanger (NCKX) is a unique calcium extrusion protein utilizing both inward sodium gradient and outward potassium gradient. Three mammalian rod NCKX cDNAs have been cloned to date, but quantitative analysis of NCKX function in heterologous systems has proven difficult. Here, we describe a simple system for quantitative analysis of NCKX function; stable transformation of cultured insect cells with the novel pEA1/153A vector containing NCKX cDNAs was combined with measurements of potassium-dependent (45)Ca uptake in sodium-loaded cells. We carried out structure-function studies on NCKX with the following results: 1) two-thirds of the full-length sequence of bovine NCKX could be deleted without affecting potassium-dependent calcium transport and without affecting key properties of the potassium binding site; 2) the affinity of NCKX for potassium was about 10-fold greater in choline medium when compared with lithium medium; this shift was observed in rod outer segments or in cells expressing full-length rod NCKX, the above deletion mutant, or a distantly related NCKX paralog cloned from Caenorhabditis elegans. We conclude that the potassium binding site is highly conserved among members of the NCKX family and is formed by residues located within the two sets of transmembrane spanning segments in the NCKX sequence.

Use of flow cytometry to rapidly optimize the transfection of animal cells

Plasmid transfection is the first step in the generation of stably transformed animal cells and is also a useful tool for analyzing transient gene expression. Maximizing the transfection efficiency and expression level from the introduced plasmid is critical to the success of these processes. By means of lipid-mediated transfection, a plasmid vector expressing the green fluorescence reporter protein has been coupled with flow cytometry to conveniently investigate those parameters that impact the efficacy of transfection of lepidopteran insect cells. The key feature of this technique is the rapid and simultaneous quantification of transfection efficiency and heterologous protein expression level per cell. Using this technique, we developed an optimized transfection protocol for insect cells by investigating the following parameters: lipid incubation time, lipid/DNA mixture incubation time, lipid and DNA concentration, incubation vessel and transfection duration. Following optimization, transfection efficiencies of 37%-40% were obtained for Bombyx mori Bm5 and Spodoptera frugiperda Sf-21 cells.

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.

Transformed Lepidopteran insect cells: new sources of recombinant human tissue plasminogen activator

Stable transformation was used to generate a cloned insect cell line (Bm5 silkmoth cells) over-expressing human tissue plasminogen activator (tPA). This cell line expressed 135 microg/mL single chain tPA in serum-free medium in static culture with a maximum specific activity of 120 IU/microg. In serum-containing medium, this line expressed 160 microg/mL of combined single-chain tPA, two-chain tPA, and a higher molecular weight SDS-stable tPA complex in suspension cultures with a maximum specific activity of 255 IU/microg. Approximately 100 copies of the tPA cDNA were randomly integrated into each Bm5 cell. For secretion of recombinant tPA from Bm5 cells, the native human tPA signal peptide is as effectively recognized as an insect specific signal peptide derived from a silkmoth chorion gene. Finally, stably transformed polyclonal populations of Bm5, High Five, and Sf21 cells expressing tPA were generated and compared for relative tPA expression.

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.

The p95 gene of Bombyx mori nuclear polyhedrosis virus: temporal expression and functional properties

As part of our effort to identify baculovirus proteins acting as transcriptional regulators, we have characterized a gene, p95, of Bombyx mori nuclear polyhedrosis virus (BmNPV) that encompasses an open reading frame for a putative 95-kDa polypeptide (P95). The N-terminal half of the conceptually translated P95 contains two zinc finger-type DNA-binding motifs, and its C terminus contains a proline-rich region reminiscent of transcriptional activation regions. Northern blot analysis indicates that two mRNA species, 3.5 and 1.7 kb in size, are transcribed from the p95 gene at different times postinfection. These two mRNA species are produced by differential polyadenylation site usage. While the longer transcript can encode the P95 protein, the shorter one may encode a prematurely terminated version of the P95 polypeptide produced by ribosome frameshifting occurring at heptanucleotide "slippage" sites located near the relevant polyadenylation site. Transcription of the p95 gene is initiated at a proximal site located 70 nucleotides upstream of the translation start codon of P95, a middle site located 170 nucleotides from the start codon, and a set of three closely spaced distal sites located 385, 390, and 409 nucleotides from the translation start codon. The middle and distant initiation sites are utilized before and after BmNPV DNA replication, while transcripts initiated at the proximal site occur largely during the late and very late stages of viral infection. Transient-expression assays indicate that P95 can stimulate gene expression driven by the promoter of its own gene and the promoter of the cytoplasmic actin gene of B. mori. The P95-mediated trans activation can be further augmented by BmIE1, an immediate-early gene product of BmNPV. In contrast to the case with the actin promoter, however, the promoter of the p95 gene can be trans activated by the product of its own gene only in the presence of BmIE1. Our data suggest that proteins P95 and BmIE1 of BmNPV and, by analogy, those of other baculoviruses may interact with each other and synergize to potentiate transcription.

The orphan receptor BmHNF-4 of the silkmoth Bombyx mori: ovarian and zygotic expression of two mRNA isoforms encoding polypeptides with different activating domains

Two silkmoth nuclear receptor isoforms, BmHNF-4a and BmHNF-4b, that are related to the mammalian orphan receptor HNF-4, were characterized. Their characterization revealed that they differ from each other only in their 5' UTR and N-terminus of the predicted polypeptides. In ovarian tissue, the two receptors are expressed as a delayed response to 20-hydroxy-ecdysone and their expression increases during vitellogenesis. BmHNF-4 mRNA is localized in the cytoplasm of follicular cells and a binding activity that recognizes a mammalian HNF-4 response element is present in follicular cell nuclear extracts. BmHNF-4 mRNA is also present in the oocyte, the unfertilized egg and the early embryo, thus displaying a behavior reminiscent of maternal mRNA. Both mRNA isoforms are found in the embryo following fertilization and their abundance is modulated during ensuing embryogenesis. In contrast to the rather limited distribution of HNF-4 in mammalian tissues, BmHNF-4 is expressed in most larval and pharate adult tissues of the silkmoth.

A baculovirus (Bombyx mori nuclear polyhedrosis virus) repeat element functions as a powerful constitutive enhancer in transfected insect cells

It has been previously reported that baculovirus homologous regions, the regions of baculovirus genomes that contain the origins of DNA replication, can augment the expression of a small number of baculovirus genes in vitro. We are now reporting that a region of the genome of Bombyx mori nuclear polyhedrosis virus (BmNPV) containing the homologous region 3 (HR3) acts as an enhancer for the promoter of a nonviral gene, the cytoplasmic actin gene of the silkmoth B. mori. Incorporation of the HR3 sequences of BmNPV into an actin promoter-based expression cassette results in an augmentation of transgene expression in transfected cells by two orders of magnitude relative to the control recombinant expression cassette. This increase is due to a corresponding increase in the rate of transcription from the actin promoter and not to replication of the expression cassette and occurs only when the HR3 element is linked to the expression cassette in cis. A comparable degree of enhancement in the activity of the silkworm actin promoter occurs also in heterologous lepidopteran cells. Concomitant supplementation of transfected cells with the BmIE1 trans-activator, which was previously shown to be capable of functioning in vitro as a transcriptional co-activator of the cytoplasmic actin gene promoter, results in more than a 1,000-fold increase in the level of expression of recombinant proteins placed under the control of the actin gene promoter. These findings provide the foundation for the development of a nonlytic insect cell expression system for continuous high-level expression of recombinant proteins. Such a system should provide levels of expression of recombinant proteins comparable to those obtained from baculovirus expression systems and should also have the additional advantage of continuous production in a cellular environment that, in contrast to that generated by a baculovirus infection, supports continuously proper posttranslational modifications of recombinant proteins and the capability of expression of proteins from genomic as well as cDNA sequences.

Characterization of a domain of the genome of BmNPV containing a functional gene for a small capsid protein and harboring deletions eliminating three open reading frames that are present in AcNPV

The nucleotide sequence of a 1.5-kb fragment of the genome of Bombyx mori nuclear polyhedrosis virus (BmNPV) has been determined. An open reading frame (ORF) has been identified, which encodes a protein of a predicted molecular mass of 15 kDa (p15). Analysis of the p15 sequence revealed that it shares significant similarities with a number of previously characterized viral capsid proteins. Two mRNAs, 0.7- and 1.3-kb, are transcribed from the p15 gene. The 0.7-kb transcript appears before BmNPV DNA replication, while the 1.3-kb transcript is transcribed only after viral DNA replication. The transcription start sites for the 0.7- or 1.3-kb transcripts have been localized into two areas mapping 114 and 557/559 bp upstream of the p15 translation initiation codon, respectively, and the two transcripts appear to share a common poly(A) addition site located 114 bp downstream of the translation termination codon. Comparisons of the nucleotide sequence of the 1.5-kb BmNPV fragment with that of another isolate of BmNPV and with Autographa californica NPV (AcNPV) genomic DNA reveal that the corresponding region of AcNPV encompasses 4.1 kb of DNA and three additional ORFs that are absent from the BmNPV genome. These findings raise questions about the origin and functional relevance of the putative polypeptides encoded by the three ORFs of AcNPV.

The genes encoding the P39 and CG30 proteins of Bombyx mori nuclear polyhedrosis virus

We have cloned and analysed the transcriptional properties of two closely linked genes, p39 and cg30, of Bombyx mori nuclear polyhedrosis virus (BmNPV). These genes encode a structural polypeptide and a putative transcriptional regulator of the virus, respectively. The cg30 gene is transcribed prior to and after DNA replication from a site located within the ORF of the adjacent p39 gene. Its transcription product, a 1.3 kb mRNA, is polyadenylated at a site containing consensus eukaryotic polyadenylation signals and mapping 87 bp downstream of the translation termination codon for CG30. During the later stages of infection, two additional RNAs, 2.2 and 6.5 kb, are also transcribed through the cg30 gene. The 2.2 kb RNA, representing the mRNA that encodes P39, is initiated from three relatively closely spaced sites located upstream of the P39 ORF. The 6.5 kb RNA is apparently transcribed from the promoter sequences of another gene located further upstream of the p39 gene. The 2.2 and 6.5 kb transcripts have two polyadenylation sites. The first site is the same as the one used to generate the cg30 gene-specific transcripts. The second is located 4 bp downstream of the CG30 translation termination codon. Transient expression assays show that the p39 gene sequences immediately upstream of the CG30 ORF can direct expression of a reporter gene when the latter is co-transfected with the gene encoding the early baculovirus trans-activator IE1. Thus, these sequences behave as a delayed-early baculovirus gene promoter.

Trans-activation of a cell housekeeping gene promoter by the IE1 gene product of baculoviruses

Protein IE1 is the product of a baculovirus gene, ie1, that is activated immediately upon entrance of the viral genome into the cell nucleus. This protein was previously shown to be a trans-regulator of viral genes whose products are required for initiation of the infectious cycle including viral DNA replication. To test whether the IE1 protein is also capable of trans-regulating nuclear genes of the host in vitro and in vivo, we transfected the ie1 gene of Bombyx mori nuclear polyhedrosis virus (BmNPV) into silkworm Bm5 tissue culture cells together with expression cassettes directing expression of chloramphenicol acetyl transferase or juvenile hormone esterase under the control of the cytoplasmic actin A3 gene promoter of B. mori. Cotransfection with the ie1 gene resulted in a dramatic increase in the amount of the two enzymes expressed in the transfected cells. The increased enzyme activities correlate with an increased accumulation of the corresponding mRNAs, and the latter is caused by an increase in the rate of transcription directed by the cytoplasmic actin gene promoter. The chromosomal cytoplasmic actin gene of Bm5 cells is also upregulated upon transfection of the cells with the ie1 gene. However, infection of cells with BmNPV does not cause an increase in the level of expression of the endogenous cytoplasmic actin gene. Thus, the effect of IE1 on the transcriptional properties of the cytoplasmic actin gene vary depending on whether IE1 is expressed in isolation or in the context of a viral infection. The trans-activating effects of BmNPV ie1 gene expression on the silkmoth actin promoter are also evident in Spodoptera frugiperda Sf21 and Choristoneura fumiferana Cf1 tissue culture cells. Finally, the ie1 gene of Autographa californica nuclear polyhedrosis virus can substitute for its BmNPV counterpart in all cell lines tested.

Bombyx EcR (BmEcR) and Bombyx USP (BmCF1) combine to form a functional ecdysone receptor

The Drosophila ecdysone receptor (DmEcR) is a member of the nuclear receptor superfamily; it functions as an obligate heterodimer with another nuclear receptor, DmUSP. EcR homologs have now been cloned from several other insects. We report here that one such homolog, BmEcR from the commercial silkmoth, Bombyx mori, is a functional ecdysone receptor. Upon dimerization with BmCF1, the silkmoth homology of DmUSP, BmEcR binds the radiolabeled steroid ligand 125I-iodoponasterone A with Kd = 1.1 nM, indistinguishable from that exhibited by DmEcR/DmUSP. BmEcR/BmCF1 forms a specific complex with an ecdysone response element (EcRE) derived from the heat shock protein 27 (hsp27) gene promoter of Drosophila; and, as with DmEcR/DmUSP, formation of this complex is stimulated by the presence of 20-hydroxyecdysone. Finally, BmEcR can substitute for DmEcR in an EcR-deficient Drosophila tissue culture line, stimulating trans-activation of an ecdysone-inducible reporter gene construct. Thus, BmEcR and BmCF1 are the functional counterparts of DmEcR and DmUSP, respectively and, despite considerable sequence divergence between the Drosophila and Bombyx proteins, the counterparts are--at least qualitatively--functionally equivalent.

The silkmoth homolog of the Drosophila ecdysone receptor (B1 isoform): cloning and analysis of expression during follicular cell differentiation

To understand the role that 20-hydroxy-ecdysone (20E) plays during ovarian development in Bombyx mori, we have undertaken the cloning of the silkworm ecdysone receptor (EcR) and a study of its expression during follicular cell differentiation. We have cloned a cDNA that contains a complete open reading frame for a 68.1 kDa polypeptide that shares extensive similarities with the B1 isoform of the Drosophila EcR. The presumed silkmoth EcR (BmEcR) is encoded by a single copy gene whose length is in excess of 23 kb. A portion of this gene encompassing seven exons that constitute the cloned BmEcR cDNA was also characterized. Employment of monoclonal antibodies, directed against the DNA binding domain of the Drosophila EcR, in Western blot analyses revealed the presence of a major 70 kDa polypeptide in extracts of follicular cells and other silkmoth tissues. The mRNA and protein encoded by BmEcR are present in constant amounts in follicular cells throughout vitellogenesis but disappear transiently at the onset of choriogenesis and reappear during the later stages of choriogenesis. The down-regulation of BmEcR in follicular cells during oogenesis suggest a complex relationship between 20E, the induction of the program of chorion gene expression in follicular cells during mid-vitellogenesis and the execution of this program at the end of vitellogenesis.

Developmental regulation of a silkworm gene encoding multiple GATA-type transcription factors by alternative splicing

Gene BmGATA beta of the silkworm Bombyx mori was previously shown to encode factor BCFI, which regulates the expression of a class of chorion genes expressed during the late stages of choriogenesis. We now show that the expression of the BmGATA beta gene is spatially and temporally regulated by alternative splicing that generates two major (BmGATA beta 1 and BmGATA beta 2) and one minor (BmGATA beta 3) mRNA isoforms of non-identical tissue distribution. The three isoforms differ in the organization of the DNA-binding domains of the corresponding polypeptides. While all three isoforms are expressed in ovarian follicular cells and in testes, only one of them, BmGATA beta 1, is gonad-specific. BmGATA beta 2 is expressed in a variety of other larval and pupal tissues, while BmGATA beta 3 is detected in some pupal but none of the larval tissues. Analysis of RNA isolated from follicular cells of developing ovarian follicles has shown that the onset of ovarian transcription for all three mRNA isoforms occurs during late vitellogenesis, and that the level of accumulated mRNA declines significantly at the onset of choriogenesis. Coincident with the onset of late chorion gene expression, we have observed a significant change in the preference of splice site selection in favour of the one that results in the generation of BmGATA beta 1 mRNA. The transcriptional activation of the BmGATA beta gene in follicular cells during late vitellogenesis correlates with the previously demonstrated initial accumulation of factor BCFI in the cytoplasm of follicular cells and its appearance in follicular cell nuclei only during the late stages of choriogenesis. The relationship between factor BCFI and the different polypeptides encoded by the three BmGATA beta mRNA isoforms is discussed.

Optimum infection conditions for recombinant protein production in insect cell (Bm5) suspension culture

The baculovirus/insect cell expression system is an efficient and practical method for the production of many active therapeutic proteins on a large scale. The advantages of suspension cultures have been demonstrated with the study of a baculovirus/insect cell (BmNPV/Bm5) expression system for the production of recombinant chloramphenicol acetyltransferase (CAT), a model heterologous protein. Key infection parameters such as infection time and multiplicity of infection were examined systematically for the maximization of protein production. Furthermore, emphasis was placed on the development of possible medium replenishment strategies, which were necessary to achieve higher volumetric protein production from the infection of high-density cell cultures without sacrificing specific protein productivity. The highest protein production was achieved with the infection of suspended cells in the mid to late exponential growth phase.

Protein phosphorylation and control of chorion gene activation through temporal mobilization of a promoter DNA binding factor from the cytoplasm into the nucleus

The transcriptional activation of high cysteine chorion genes in the follicular cells of the silkworm Bombyx mori occurs at the end of oogenesis and coincides with the appearance of a chorion promoter DNA binding factor, BCFI, in follicular cell nuclei. Follicular cells of vitellogenic and choriogenic follicles that do not express high cysteine chorion genes contain high levels of a latent form of BCFI in their cytoplasm. The abundance of the cytoplasmic factor, termed cBCFI, is dramatically reduced during late choriogenesis, coincident with the appearance of factor BCFI in the nucleus and the transcriptional activation of high cysteine genes. Mobility shift assays performed with partially proteolyzed nuclear and cytoplasmic extracts of follicular cells, DNA binding assays carried out in the presence of anti-BCFI antibodies, and electrophoretic analyses of the proteins present in the nuclear and cytoplasmic fractions of follicular cells and recognized by the same antibodies suggest that factor cBCFI represents a covalently modified version of BCFI. The DNA-binding sites of BCFI and cBCFI include a core sequence, AGATAA, but, while this sequence is sufficient for specific binding of BCFI, it only constitutes part of the DNA-binding site of cBCFI. Dephosphorylation of cBCFI results in a change of its binding specificity to that of BCFI. The cytoplasmic sequestration of cBCFI appears to be mediated by a phosphorylation-dependent, reversible association of this factor with an ancillary cytoplasmic factor.

GATA-type zinc finger motif-containing sequences and chorion gene transcription factors of the silkworm Bombyx mori

To characterize a DNA-binding protein, BCFI, which regulates the expression of silkmoth chorion genes through binding to gene promoter elements identical to those recognized by the GATA family of transcription factors, we have carried out polymerase chain reaction amplifications of Bombyx mori genomic DNA using degenerate primers derived from the conserved DNA binding domain of mammalian GATA factors. Two single copy genes, BmGATA alpha and BmGATA beta, were identified, which encode sequences containing GATA-type zinc finger motifs. The BmGATA beta gene is expressed in follicular and Bm5 tissue culture cells, the two cell types that contain BCFI. No BmGATA alpha gene transcripts were detectable in the tissues that were tested. Upon overexpression in Escherichia coli, a peptide encompassing the BmGATA beta zinc finger motif was able to bind specifically to the BCFI recognition motif of the chorion gene promoters. A polyclonal antibody directed against the zinc finger domain of BmGATA beta was also used in gel retardation assays to confirm that factor BCFI is indeed encoded by the BmGATA beta gene. Conceptual translation of a complete cDNA clone encoding the BmGATA beta protein revealed that this protein has a size similar to that of an immunoreactive protein, presumably BCFI, which is present in follicular cell extracts.