Monoclonal antibodies to the exon 18 encoded moiety of NCAM

Aim: Exon 18 expression of NCAM has been recognized as a biomarker for small cell lung cancer (SCLC). To use this finding for an improved diagnosis of SCLC and personalized treatment of patients, techniques to identify and quantitate E18, the exon 18 encoded protein moiety of NCAM, are needed. We developed three monoclonal antibodies for this purpose.Methods: The his-tagged E18 antigen was expressed in E. coli and, after purification, used to immunize mice. Hybridoma’s were isolated by standard procedures and tested for their reaction with E18.Results: Three monoclonal antibodies, MUM-1, MUM-4 and MUM-6 were obtained. They reacted with E18 in western blots, with SCLC cell line NCI-H82, but not with unrelated his-tagged proteins. Only permeabilized NCI-H82 cells stained with the antibodies, confirming the intracellular position of E18. Next an enzyme-linked immunosorbent assay was developed using the earlier isolated monoclonal antibody MUMi-21B2, coated on the surface of microtiter wells as capture antibody and biotinylated MUM-6 as second antibody. Using streptavidin conjugated to horse radish peroxidase a linear dose response curve to his-tagged E18 antigen was obtained between 0 and 5 µg/mL with a sensitivity of at least 0.5 µg/mL or 50 ng/well.Conclusion: Four monoclonal antibodies are available to be used in assays for the identification and quantification of SCLC biomarker E18. This will enable the development of liquid biopsies to follow the tumor load in patients

The 180 splice variant of NCAM-containing exon 18-is specifically expressed in small cell lung cancer cells

Background: The Neural Cell Adhesion Molecule (NCAM) is a glycoprotein expressed as 120, 140 and/or 180 kDa isoforms, all derived through alternative splicing of a single gene. NCAM 120 contains no intracellular domain, whereas NCAM 140 and 180 have different intracellular domains determined by alternative splicing of exon 18. NCAM has been described as a biomarker to discriminate small cell lung cancer (SCLC) from non-SCLC (NSCLC). However, peripheral blood mononuclear cells (PBMC) also express NCAM. We studied the expression of NCAM splice variants in cell lines, tumor tissues and control cells. Methods: Using reverse transcriptase-PCR we evaluated the expression of NCAM exon 18 splice variants in lung cancers cell lines, control cell lines, PBMC of healthy controls and SCLC tissue. In addition we studied the expression of the NCAM exon 18 encoded protein (E18) in SCLC by immunocytochemistry and flow cytometry using an E18-specific monoclonal antibody obtained by hybridoma fusion of E18-immunized mouse spleen cells. Finally we looked at immune responses to E18 in mice. Results: We found expression of RNA encoding the NCAM 180 variant in all SCLC cell lines. NCAM exon 18 was not expressed in 23/28 (82%) of the other tumor and leukemia cell lines tested and PBMC. Next, we also evaluated the expression of NCAM exon 18 in human SCLC tissue. Expression of NCAM exon 18 in 8 of the 10 (80%) SCLC biopsy samples was found. The newly raised E18-specific antibodies stained NCAM at the adherent junctions between adjacent cells in SCLC cell lines. The data demonstrate the intracellular location of E18 in SCLC. Furthermore, a specific cytotoxic T cell (CTL) response and significant antibody titers were found in mice upon immunization with recombinant E18 and its encoding DNA. Conclusions: The results of this study can be applied in the diagnosis and immunotherapy of SCLC. A larger study investigating E18 as a marker for SCLC is indicated