Erik Patzelt

Characterization of a high-affinity monoclonal antibody specific for CD44v6 as candidate for immunotherapy of squamous cell carcinomas.

Abstract Variant isoforms of CD44, a family of cell-surface glycoproteins generated by alternative splicing and post-translational modifications, are expressed in a variety of human tumors and play important roles in tumor progression and metastasis formation. The murine monoclonal IgG1 antibody VFF18, specific for an epitope encoded by human CD44 variant exon 6, binds with high affinity to the recombinant protein (Kd = 1.7×10–10 M) as well as to tumor cell lines in vitro, and is suitable for immunohistochemical analysis of human tumors. Screening of more than 500 tumor samples of different histogenesis showed that VFF18 most strongly and uniformly reacts with squamous cell carcinomas (SCC). Detailed analysis of 185 SCC (head and neck, lung, skin) confirmed reactivity of the antibody with 99% of the samples, with intense and homogeneous staining of the tumor cells in the majority of cases, whereas reactivity of VFF18 with normal tissues is limited to certain epithelia and activated lymphocytes. When radiolabelled VFF18 was administered to nude mice bearing human epidermoid carcinoma (A-431) xenograft, fast and selective tumor uptake of the radioimmunoconjugate with a maximum of 18% of the injected dose per gram of tissue was observed. Taken together, these data suggest that mAb VFF18 is a promising targeting vehicle for radioimmunotherapy of squamous cell carcinomas in humans.

Tumor targeting properties of monoclonal antibodies with different affinity for target antigen CD44V6 in nude mice bearing head-and-neck cancer xenografts.

The CD44 protein family consists of isoforms with tissue‐specific expression, which are encoded by standard exons and up to 9 alternatively spliced variant exons (v2–v10) of the same gene. The murine MAbs U36 and BIWA‐1, directed against overlapping epitopes within the v6 region of CD44, have previously been shown to efficiently target HNSCC. We herein report on the construction of 1 chimeric (BIWA‐2) and 2 humanized (BIWA‐4 and BIWA‐8) derivatives of BIWA‐1. Together with U36 and BIWA‐1, these new antibodies were evaluated for affinity to the antigen in vitro as well as for biodistribution and efficacy in RIT using nude mice bearing the HNSCC xenograft line HNX‐OE. As determined by surface plasmon resonance, the MAbs bound to CD44v6 with an up to 46‐fold difference in affinity (Kd ranging from 1.1 × 10−8 to 2.4 × 10−10 M) with the following ranking: mMAb U36 < hMAb BIWA‐4 < hMAb BIWA‐8 < mMAb BIWA‐1 ∼ cMAb BIWA‐2. To evaluate their in vivo tumor‐targeting properties, 2 MAbs with identical murine or human isotype were labeled with either 131I or 125I and administered simultaneously (50 μg/10 μCi each) as pairs showing a stepwise decrease in the difference in affinity: U36 vs. BIWA‐1 (35.0‐fold difference), BIWA‐4 vs. BIWA‐2 (14.0‐fold) and BIWA‐4 vs. BIWA‐8 (4.0‐fold). Biodistribution was assessed at 1, 2, 3 or 4 and 7 days after injection. Remarkably, for all 3 MAb pairs tested, the lower‐affinity MAb showed a higher degree and specificity of tumor localization. The difference in tumor localization was more pronounced when the difference in affinity was larger. For example, 3 days after injection, the lower‐affinity mMAb U36 showed a 50% higher tumor uptake than the higher‐affinity mMAb BIWA‐1, while blood levels and uptake in organs were similar. After labeling with 186Re (300 or 400 μCi), the same MAb pairs showed RIT efficacy consistent with the biodistribution data: 186Re‐U36 was more effective than 186Re‐BIWA‐1, 186Re‐BIWA‐4 was slightly more effective than 186Re‐BIWA‐2 and 186Re‐BIWA‐4 and 186Re‐BIWA‐8 demonstrated similar efficacy. Based on these data, we conclude that antibodies with markedly lower affinity to a given target antigen (e.g., U36, BIWA‐4) may show superior tumor targeting in comparison with higher‐affinity versions of these antibodies.

Splice variants of the cell surface glycoprotein CD44 associated with metastatic tumour cells are expressed in normal tissues of humans and cynomolgus monkeys.

Certain isoforms of the CD44 glycoprotein family play an essential role in the metastatic spread of tumour cells. Protein expression of such CD44 isoforms has also been observed in a variety of human malignancies. In this study, we compared the expression of exon v5- and v6-containing CD44 isoforms in normal human and cynomolgus monkey (Macacca fasciculata) tissues. Cloning and sequencing of cynomolgus CD44 exons v5 and v6 revealed a homology of 97% and 95%, respectively, between man and monkey. Two monoclonal antibodies (MAbs) directed against an epitope encoded by human exon v5 (VFF8) and an epitope encoded by exon v6 (VFF18) were used to determine expression of CD44 isoforms in man and monkey. Immunohistochemical screening of a representative profile of normal human and cynomolgus tissues revealed that expression of exon v5- and v6-containing CD44 isoforms was almost identical in the two species. Exon v6 staining was observed only in a subset of epithelial tissues, whereas v5 staining was additionally detected on certain non-epithelial tissues. These data suggest that cynomolgus monkey could serve as a system to test the usefulness of antivariant CD44 MAbs with regard to antibody-based tumour therapy.

Development of transferrin-polycation/DNA based vectors for gene delivery to melanoma cells.

We describe the comparison of non-viral polycation transfection reagents, adenovirus-enhanced transferrinfection (AVET), polyethylenimine (PEI800) and transferrin-conjugated PEI800 (Tf-PEI800) in their ability to transfect murine and primary human melanoma cell lines. Expression of a reporter gene, cell surface marker and secreted protein (interleukin-2) was assessed for each vector system. Testing for luciferase reporter gene expression in murine and primary human cell lines, AVET and Tf-PEI800, both showed high levels of expression and comparable activity. Furthermore, when the melanoma cell line B16F10 was transfected with a cell surface marker up to approximately 97% of the cells expressed the protein on the cell surface. Assessing the levels of secreted IL-2 in murine cell lines, AVET/IL-2, Tf-PEI800/IL-2 and PEI800/IL-2 all expressed high levels of the cytokine (up to 20 microg IL-2/10(6) cells/24 h). In primary human melanoma cell lines, AVET/IL-2 transfected cells secreted more IL-2 than cells transfected with either Tf-PEI800/IL-2 or PEI800/IL-2. In murine melanoma cell culture experiments, positively charged PEI800/DNA and Tf-PEI800/DNA complexes gave similar transfection efficiencies. However, when subcutaneous tumors in mice were injected with the luciferase reporter gene complexed with either Tf-PEI800 or AVET, higher transfection activity was measured in the tumors as compared to ligand free PEI800/DNA complexes.

Human interferon ω1: isolation of the gene, expression in Chinese hamster ovary cells and characterization of the recombinant protein

A gene encoding human interferon omega-1 (IFN-omega 1) was isolated from a cosmid library, sequenced and expressed in Chinese hamster ovary (CHO) cells under the control of an SV40-derived promoter/enhancer sequence. Culture supernatants of stably transfected cell clones contained biologically active IFN-omega 1 at concentrations up to 10 micrograms/l. Amplification of the expression vector containing a dhfr gene under methotrexate selection pressure resulted in yields up to 200 micrograms/l. Production of IFN-omega 1 was further enhanced 2- to 3-fold by propagation of the cells in the presence of n-butyrate. IFN-omega 1 was purified from culture supernatants by monoclonal antibody affinity chromatography. The resulting protein was at least 95% pure as determined by reverse-phase HPLC and size-exclusion HPLC. Sodium dodecylsulfate polyacrylamide gel electrophoresis (SDS-PAGE) showed two bands of about the same intensity with apparent molecular masses of 24.5 and 22.5 kDa. Upon treatment with peptide:N-glycosidase F, both bands were shifted to lower molecular masses (20.5 and 18.5 kDa), indicating that CHO cell-derived IFN-omega 1 is glycosylated; Asn-78 was identified as the glycosylation site. Analysis of the carbohydrate moiety using glycosidases and lectins revealed the presence of biantennary complex oligosaccharides containing neuraminic acid. Amino acid sequencing showed that only about 40% of the molecules have the expected N-terminus, whereas the others carry two additional amino acids derived from the signal sequence. C-terminal amino acid sequencing using carboxypeptidase P demonstrated that the smaller form of the protein lacks nine amino acids. Disulfide bridges were shown to connect Cys residues 1 and 99 as well as 29 and 139, respectively, as in IFN-alpha. The specific antiviral activity of recombinant, glycosylated human IFN-omega 1 on human cells was 2.6 x 10(8) IU/mg, not significantly different from that of the authentic, human leukocyte-derived protein.