Marc Massaer

High-Level Expression in Mammalian Cells of Recombinant House Dust Mite Allergen ProDer p 1 with Optimized Codon Usage

Background: The major house dust mite allergen Der p 1 is associated with allergic diseases such as asthma. Production of recombinant Der p 1 was previously attempted, but with limited success. The present study describes the expression of recombinant (rec) ProDer p 1, a recombinant precursor form of Der p 1, in CHO cells. Methods: As optimization of the codon usage may allow successful overexpression of protein in mammalian cells, a synthetic gene encoding ProDer p 1 was designed on the basis of the codon usage frequently found in highly expressed human genes. Gene synthesis was accomplished from a set of 14 mutually priming overlapping oligonucleotides and after two runs of polymerase chain reaction. Results: COS cells transiently transfected with the synthetic ProDer p 1 gene produced up to 5–10 times as much ProDer p 1 compared with the expression level obtained after transfection with the authentic gene. To stably express the recombinant allergen, CHO-K1 cells were transfected with the ProDer p 1 synthetic gene, and one amplified recombinant clone produced up to 30 mg of recProDer p 1 per liter in the culture medium before purification. recProDer p 1 was secreted as an enzymatically inactive single-chain molecule presenting three glycosylated immunoreactive forms of 41, 38 and 36 kD. When examined with respect to direct binding, recProDer p 1 and natural Der p 1 displayed very similar IgE reactivities. However, IgE inhibition and histamine release assays showed a much higher reactivity to natural Der p 1 compared to recProDer p 1. Conclusions: These data indicated that codon optimization represents an attractive strategy for high-level production of allergen in mammalian cells.

The varicella zoster virus glycoprotein B (gB) plays a role in virus binding to cell surface heparan sulfate proteoglycans

Varicella-zoster virus (VZV) interacts with cell surface heparan sulfate proteoglycans during virus attachment. In the present study, we investigated the potential involvement of two VZV glycoproteins, gB and gE, in the virus adsorption process. We showed that gB, but not gE, binds specifically to cellular heparan sulfate proteoglycans (HSPGs). Indeed, soluble recombinant gB protein (recgB) was found to bind to immobilized heparin and to MRC5 and L cells, a binding which was inhibited by heparin. Furthermore, recgB binding to two heparan sulfate-minus mutant L cell lines, gro2C and sog9 cells, was markedly reduced as compared to the parental L strain. Under the same experimental conditions, soluble recombinant VZV gE protein did not interact with heparin or with cell surfaces. We also demonstrated that the gB-HSPGs interactions were relevant to the VZV attachment to cells. Indeed, although polyclonal antibodies directed to gB did not impair the VZV binding, recgB could delay the virus adsorption. Our results thus strongly suggest that the interactions between gB and heparan sulfate proteoglycans take part in the initial VZV attachment to cell surfaces.

Purification, characterization and immunogenicity of recombinant varicella-zoster virus glycoprotein gE secreted by Chinese hamster ovary cells.

The gene of the varicella-zoster virus (VZV) glycoprotein gE, engineered to code for a truncated molecule lacking the anchor and carboxy-terminal tail domains, was transfected into Chinese hamster ovary (CHO) cells via the pEE14 mammalian expression vector. One recombinant cell line, CHO-gE-2-9, secreted high levels of truncated gE into the culture medium. The product was purified to near homogeneity by a combination of anion exchange, hydrophobic and metal-chelate chromatographies. Purified recombinant gE showed the expected amino-terminal sequence and its glycosylation pattern proved similar to that of the natural product. When injected into mice, using either Freunds or alum as adjuvant, the native truncated gE induced complement-dependent neutralizing antibodies. In contrast, when the molecule was first denatured, it lost immunogenicity with alum. These data show that the recombinant gE, although truncated, could potentially be included in a subunit vaccine against VZV infection.

tap, a Drosophila bHLH gene expressed in chemosensory organs

We have isolated a Drosophila bHLH gene, tap, that is expressed in a small subset of neurons when they undergo differentiation. In the peripheral nervous system, tap is expressed exclusively in one of the neurons that innervate each larval chemosensory organ, possibly controlling the specific properties of that neuron. Sequence comparisons suggest that tap is most closely related to two bHLH genes identified in several vertebrate species, neurogenin and neuroD, which are involved respectively in neural determination and in neuronal differentiation.

Neutralizing antibody responses induced by varicella-zoster virus gE and gB glycoproteins following infection, reactivation or immunization

The purpose of this study was to compare the antibody responses to varicella‐zoster virus (VZV) gE and gB after natural VZV infection and after vaccination with live attenuated OKA vaccine in order to determine the relative importance of these proteins as components of a subunit vaccine. Anti‐VZV antibody titers determined by IFA were of the same order of magnitude in sera from individuals with a history of varicella and in vaccinated children but higher in individuals given booster vaccination. The titers of anti‐gE and anti‐gB antibodies were measured by ELISA using recombinant gE or gB as capture antigen. From these experiments, it appears that the ratio of anti‐gE to anti‐gB antibody is highly variable from one individual to another but relatively stable over a long period of time for a particular individual, even after a zoster episode. Neutralizing antibodies directed against gE or gB were also measured by subtracting the neutralization titers obtained before and after depletion of the specific antibodies on immobilized recombinant gE, gB, or both. This showed that, with respect to neutralization, anti‐gE and anti‐gB are equally prevalent in vaccinated children and that anti‐gE is generally, but not always, predominant over anti‐gB in VZV‐infected individuals. Finally, antibodies to these two glycoproteins appear to be predominant among the neutralizing antibodies directed to other VZV antigens. J. Med. Virol. 53:63–68, 1997.

Immunogenicity of a recombinant varicella-zoster virus gE-IE63 fusion protein, a putative vaccine candidate against primary infection and zoster reactivation.

The varicella-zoster virus (VZV) envelope glycoprotein E (gE) and immediate early protein 63 (IE63) are well known targets for specific humoral and cell-mediated immune responses during VZV infection and latency, respectively. The present study evaluated the immunogenicity of an engineered chimeric recombinant gE-IE63 (recgE-IE63) protein secreted from CHO cells, wherein a soluble form of gE, deleted of its anchor and cytoplasmic domains was fused to IE63. Guinea pig vaccinations with adjuvanted recgE-IE63 elicited a strong and specific humoral immune response directed to each counterpart. Sera from recgE-IE63-immunized animals neutralized cell-free VZV. This neutralizing capacity was dependent only on the recgE moiety as serum depletions on recgE-immobilized sepharose totally abolished VZV neutralization. The cell-mediated immune response induced by recgE-IE63 was evaluated in lymphoproliferation assays. An antigen-specific proliferative response was demonstrated after lymphocyte stimulation with recIE63 but not with recgE. We conclude that recombinant chimeric recgE-IE63 induced both humoral and cell-mediated immune responses and thus could constitute a putative subunit vaccine candidate against VZV primary infection and zoster reactivation.

Molecular cloning, characterization and purification of ornithine carbamoyltransferase from Mycobacterium bovis BCG.

SummaryA genomic library of Mycobacterium bovis BCG has been constructed by cloning DNA partially digested with Sau3A into the Escherichia coli expression vector pAS1. The gene coding for ornithine carbamoyltransferase (EC.2.1.3.3 ; OTCase), hereafter referred to as argF, was isolated from the library by complementation of a double argF-argI mutant of E. coli and its sequence was determined. The translation initiation codon used, GTG, was identified by comparing the amino acid sequence deduced from the gene with the N-terminal sequence of the corresponding purified protein. On this basis, the M. bovis BCG OTCase monomer consists of 307 amino acid residues and displays about 44% identity with other OTCases, the most closely related homologue being the anabolic enzyme of Pseudomonas aeruginosa. The native enzyme has an estimated molecular mass of 110 kDa, suggesting a trimeric structure as is the case for most of the anabolic OTCases known from various organisms.

Plasmodium falciparum : recombinant baculoviruses direct the expression of circumsporozoite proteins in Spodoptera frugiperda cell cultures

The DNA coding for the circumsporozoite protein (CPS) of Plasmodium falciparum has been cloned into the baculovirus expression vector pAcYM1 and expressed in Spodoptera frugiperda (Sf9) insect cells. Three DNA constructs have been made: the first one directs the synthesis of the complete CSP (aa 1–412), the second leads to the production of a species devoid of the anchor domain (aa 1–391) and the third one to a molecule lacking both signal and membrane anchor sequences (aa 18–391). All three recombinant CPS were produced at about 3 μg per 106 infected cells and were characterized in terms of immunoreactivity and apparent molecular weight. Analytical purification of the recombinant proteins was achieved by a combination of heat treatment, acidification, isoelectric focusing and ion exchange chromatography. The purified material, when injected into mice, generated only modest antibody responses, although antisera from immunized mice reacted with control CSP antigens carrying or not the major immunodominant repeat region.

Porcine D-amino acid oxidase: production of the biologically active enzyme in Escherichia coli.

DNA molecules coding either for mature porcine D-amino acid oxidase or for truncated forms of the enzyme have been obtained by stepwise addition of synthetic oligonucleotides to a partial cDNA. Under the control of the lambda PL thermoregulatable promoter, these DNAs were respectively expressed in Escherichia coli as 36, 28 and 25 kilodalton polypeptides, specifically recognised by antibodies raised against the natural enzyme. None of the truncated proteins were biologically active whereas the mature recombinant species was able to hydrolyze D-alanine in vitro as efficiently as the natural product.