Development of a biotin mimic tagged ScFv antibody against western equine encephalitis virus: bacterial expression and refolding.

Single chain antibodies (ScFvs) are heavy and light chain variable domains connected by an artificial linker. Because of their smaller size, ScFvs show improved tissue penetration in vivo and reduced immunogenicity, making them ideal for therapeutic applications. We have cloned a ScFv against western equine encephalitis (WEE) using rDNA technology. The ScFv was generated from a hybridoma cell line (11D2) specific to the WEE virus E1 glycoprotein and is arranged in the V(L)-V(H) orientation with a (gly(4)ser)(3) linker. This ScFv was engineered successfully with a biotin mimic tag (11 amino acid peptide) and cloned in the pET22b+ expression vector. The ScFv was expressed as a approximately 32kDa protein in Escherichia coli as inclusion bodies, with an estimated yield of 20-40 mg/l. Different refolding protocols were used to solubilise the inclusion bodies. Most of the functional ScFv was generated when the inclusion bodies were solubilized in a detergent, air oxidised in the presence of CuSO(4) and then denatured in urea buffer in comparison to other protocols. The product was renatured finally in Tris arginine buffer (pH 8.0). Refolded protein was dialysed against phosphate buffer saline (PBS) (pH 7.3) to remove the Tris and arginine. Our refolding protocol generated up to a 50% yield of soluble protein, which retained antigen-binding activity with whole inactivated WEE virus as demonstrated by ELISA and Western blot analysis. This 11D2-biotin mimic ScFv complexed with streptavidin horseradish peroxidase (St-HRPO) will be useful as a detector reagent in the ultrasensitive ELISA detection of WEE virus antigen.

Bispecific and bifunctional single chain recombinant antibodies.

Bispecific and bifunctional monoclonal antibodies as second generation monoclonals, produced by conventional chemical or somatic methods, have proved useful in the immunodiagnosis and immunotherapy of cancer and other diseases. Recombinant antibodies produced by genetic engineering techniques have also become available for use in preclinical and clinical studies. Furthermore, through genetic engineering, it is possible to remove or add on key protein domains in order to create designer antibody molecules with two or more desired functions. This review summarizes the strategies for development of single chain variable fragment (scFv) bifunctional and bispecific antibodies. The advantages and disadvantages as well as the problems of generating the various bispecific and bifunctional antibody constructs are reported and discussed. Since conventionally prepared bispecific and bifunctional monoclonal antibodies have already shown promise in clinical trials and results from preclinical studies of recombinant bispecific antibodies are encouraging, clinical trials in humans of recombinant bispecific and bifunctional antibodies, as a new generation of biologicals, are likely to be the thrust in the next decade and beyond.

Colonization and immune responses in mice to Helicobacter pylori expressing different Lewis antigens.

BACKGROUND AND AIMS: A mouse model was established to compare colonization by the H. pylori Sydney strain SS1 with several clinical isolates expressing different Lewis antigens on their surface. In addition, both humoral and cell mediated immune responses were determined for different H. pylori strains. METHODS: Mice were inoculated intragastrically separately with the Sydney strain as well as with five clinical isolates of H. pylori expressing different Lewis (Le) antigen phenotypes. Colonization of the mouse stomach by the bacteria was monitored from two to fourteen weeks post inoculation by four independent methods namely, urease, PCR (using CagA primers), bacterial culture and histology. Antibody titers and cellular immune responses were monitored by ELISA and antigen stimulation test respectively. RESULTS: Different degrees of colonization were observed in C57, CD1 and Balb/c mice inoculated with H. pylori strain SS1 (Le(x), Le(y)) and clinical isolates UA948 (Le(a), Le(x)), UA861 (alpha-glucosyl polyLacNAc), UA1258 (Le(y)), UA802 (Le(y)) and UA1264 (no Le antigen) starting from week two post inoculation. All three mice strains mounted high immune responses against different H. pylori antigens. Treatment of mice with vancomycin prior to inoculation has no effect either on colonization of the stomach or the immune response of the mice. Histological evaluation established colonization after 10 weeks post inoculation but not gastritis. CONCLUSIONS: Stomach of mice can be colonized consistently, with H. pylori strain SS1, and colonization was also achieved with all clinical isolates that were not mouse adapted. These strains could be detected more consistently by PCR in the early stages, then by culture only after 8 - 10 weeks. In our study, Lewis(x) expressing bacterial strain (UA948) failed to colonize Balb/c mice, whereas the Le(y) expressing strain (UA1258) did not colonize C57/BL6 mice.

Development and characterization of a bispecific single-chain antibody directed against T cells and ovarian carcinoma.

Bispecific antibodies with specificity for tumor antigen and CD3 have been shown to redirect the cytotoxicity of T cells against relevant tumor. Our objective was to generate single-chain bispecific antibodies (bsSCA) that could retarget mouse cytotoxic T lymphocytes (CTL) to destroy human ovarian carcinoma in a xenogeneic setting. A bsSCA, 2C11 x B43.13, was constructed by genetic engineering and expressed in mammalian cells. Molecular characteristics, binding properties, and ability to retarget CTL were studied. Western blot analysis showed that the product is a 65-kDa protein. Purification of antibodies could be done by single-step affinity chromatography using protein L-agarose with an unoptimized yield of 200 microg/L. BsSCA 2C11 x B43.13 was capable of binding to mouse CD3 and human CA125 as detected by FACS analysis of EL4 and OVCAR Nu3H2 cells, respectively. It could also bridge activated splenic T cells and human ovarian carcinoma as demonstrated by a bridge FACS assay. Redirected mouse CTL could mediate human target cell lysis in a 20-h 51Cr release assay despite that they are xenogeneic. Prolonged incubation of redirected CTL and tumor targets resulted in a dramatic reduction in tumor cell number. CD28 co-stimulation enhanced redirected CTL function in both types of assays. BsSCA 2C11 x B43.13 thus can be used as a preclinical immunotherapeutic model for human ovarian cancer in a xenogeneic setting.

A single chain Fv specific against Western equine encephalitis virus.

A recombinant single chain Fv (scFv) specific against Western equine encephalitis virus (WEE) was developed and characterized. The scFv was generated from 11D2 hybridoma producing anti-WEE antibody reactive to E1 component of viral envelope glycoprotein. V(L) and V(H) gene segments of 11D2 scFv were generated and joined together with a (gly4ser)3 linker by polymerase chain reaction (PCR). The resulting scFv was successfully expressed in P. pastoris expression system. Fifteen individual plasmids were tested and six of them were shown to drive scFv expression. DNA sequence analysis from three productive plasmids showed that they all carried the same VL and V(H) gene segments with a few base differences. Comparison of 11D2 scFv DNA sequence to the Kabat database showed that VH of 11D2 antibody belonged to subgroup IIID and subfamily XIV, while VL domain did not belong to any known subgroup or subfamily. Western blot analysis of 11D2 scFv using anti-c-myc antibody for detection showed different band pattern among clones derived from different plasmids. This was thought to be due to the different glycosylation where amino acid substitution occurred. Successful purification of 11D2 scFv could be done by immobilized metal affinity chromatography with an unoptimized yield of 700 microg/L. Functional studies showed that 11D2 scFv could bind to its respective WEE antigen as demonstrated by Western blot analysis and enzyme-linked immunosorbent assay (ELISA). The binding affinity of 11D2 scFv is reasonably good compared to the parental 11D2 bivalent monoclonal antibody (MAb). Thus, 11D2 scFv and its derivatives have a potential use as immunotherapeutic and immunodiagnostic agents of WEE infections.

Alternatively spliced, germline J alpha 11-2-C alpha mRNAs are the predominant T cell receptor alpha transcripts in mouse kidney.

We recently reported the expression of a truncated T cell receptor (TCR) alpha mRNA in kidney and brain of normal mice. In the kidney, the truncated TCR alpha transcript was expressed by bone marrow-dependent, non-T large interstitial cells located predominantly in the medulla. Here, we report the molecular characterization of the truncated TCR alpha transcript from kidney. Using a modified anchored-PCR (A-PCR) technique and directional cloning, 37 cDNA clones extending 5' of the C alpha region were generated. cDNA sequencing showed that 29 of the clones (78%) originated in the J alpha 11-2 region. Of these clones, 17 started upstream or in the J alpha 11-2 exon and contained the entire J alpha 11-2 sequence correctly spliced to the first C alpha exon. Analysis of the sequence revealed the presence of multiple stop codons in all three reading frames. The other 12 clones originated further upstream of the J alpha 11-2 exon and did not include the J alpha 11-2 exon, but rather arose from the joining of a cryptic splice donor signal to the usual TCR alpha C splice acceptor. This alternatively spliced transcript contained an open reading frame extending from the upstream J alpha 11-2 region to 82 nucleotides downstream of the beginning of the TCR C alpha region, and potentially encoded a 36 amino acid polypeptide. The remaining eight clones all contained the J alpha TA61 region correctly spliced to C alpha with two of these extending upstream of the J alpha TA61 exon. The predominance of J alpha 11-2-C alpha containing clones was confirmed by RNase protection assay using total RNA from kidney and spleen of scid mice. The 3' region of the transcript contained a fully conserved, correctly spliced TCR alpha C region which was polyadenylated at the 3' end. The truncated TCR alpha mRNA could be detected in preparations of cytoplasmic RNA, indicating that this transcript follows a normal RNA processing pathway. Our results demonstrate that the truncated TCR alpha mRNA expressed in normal mouse kidney is a germline J-C transcript resulting from transcription initiated predominantly upstream of the J alpha 11-2 region. This germline transcript in the kidney is undergoing alternative splicing leading to the appearance of an open reading frame coding for a short polypeptide. These results suggest that the product of this transcript may be functionally relevant.

Polyclonal expansion of peripheral gamma delta T cells in human Plasmodium falciparum malaria.

Plasmodium falciparum malaria in humans is associated with an increase in the percentage and absolute number of gamma delta T cells in the peripheral blood. This increase begins during the acute infection phase and persists for at least 4 weeks during convalescence. In the present study, 25 to 30% of the gamma delta T cells expressed HLA-DR antigens in vivo and in some patients they proliferated in response to further stimulation by purified human interleukin 2 in vitro. However, there was no in vitro proliferative response to various malarial antigens, including a 75-kDa heat shock protein and a 72-kDa glucose-regulated protein of P. falciparum during the acute infection phase. Cytofluorographic studies showed that although an increase of V delta 1- gamma delta T cells was largely responsible for the expansion of the total number of gamma delta T cells, there was also a proportional increase in V delta 1+ cells. These results were confirmed with anchored PCR and by DNA sequencing to characterize at the molecular level the set of T-cell receptor (TCR) delta mRNAs expressed in the peripheral blood of two patients with high levels of gamma delta T cells. In each case, most of the TCR delta mRNA transcripts corresponded to nonproductively rearranged delta genes (unrearranged J delta or near J delta spliced to C delta). In those sequences which did represent productively rearranged genes, most of the transcripts originated from a V delta 2/J delta 1 joining, as in normal individuals. A minority of transcripts originated from a V delta 1/J delta 1 rearrangement, and one originated from a V alpha 4/J delta 1 rearrangement. Polyclonal activation of gamma delta T cells was inferred from the extensive junctional diversity seen in the delta mRNAs analyzed. Expansion of a heterogeneous set of both V delta 1(-)- and V delta 1(+)-bearing T cells suggests that the elevated levels of gamma delta T cells seen during acute P. falciparum malaria arose from immune responses to multiple distinct parasite antigens or unidentified host factors.