Kjell Nustad

Immunofluorometric assay for the metastasis-related protein S100A4: release of S100A4 from normal blood cells prohibits the use of S100A4 as a tumor marker in plasma and serum.

The metastasis-related protein S100A4 is released from tumor cells, and since it is highly expressed in colorectal cancer (CRC), it could be a potential tumor marker in plasma or serum. Monoclonal antibodies (MAbs) were raised against human recombinant S100A4 and shown to detect native and recombinant antigen with high sensitivity and specificity. Using two MAbs, an immunofluorometric assay (IFMA) was established to detect S100A4 in clinical samples with high sensitivity and precision. S100A4 in plasma and serum from patients with CRC was highly influenced by sample hemolysis. Both red blood cells and mononuclear cells were found to contain S100A4, possibly contributing to the measured levels in serum and plasma. Since even very low-level hemolysis influenced the results, a potential contribution from an S100A4-expressing tumor could not be discerned, indicating that S100A4 is not suitable as a plasma or serum tumor marker for CRC. The antibodies and the IFMA may still be useful for research purposes.

A rapid and sensitive immunoassay for tumor necrosis factor using magnetic monodisperse polymer particles

A sensitive and rapid immunoassay for the detection of tumor necrosis factor (TNF) has been developed. Magnetic monodisperse polymer particles (M-280 Dynabeads) used as solid phase material, were coated with a neutralizing mouse monoclonal antibody to TNF. The coated Dynabeads were shown to have a more rapid binding capacity for recombinant (r) TNF as compared to standard immunowells coated with antibodies to TNF. The amount of TNF bound to the Dynabeads was quantified using either a polyclonal antibody to TNF or a mouse monoclonal antibody to TNF. The antibodies used for detection were either labelled with 125I or peroxidase. The linear assay range for the TNF standard curve was form 62 to 4000 pg/ml, and the assay time was less than 60 min. The sensitivity could be increased 5-8-fold by increasing the sample volume from 0.1 to 2 ml.

Elevated CA 125 in Breast Cancer – A Sign of Advanced Disease

The serum tumor markers CA 125, MUC1 and CEA were measured in 221 breast cancer patients over a period of 2 years. Patients examined on at least three occasions were included in the study. Thirty-three patients had increasing or continuously high concentrations of CA 125. Thirty (91%) of these had involvement of the pleura, either as pleural metastasis or metastasis in surrounding tissue i.e. bone structures in the thorax cavity or lung parenchyma. MUC1 and CEA were elevated in 27 (82%) and 24 (73%) of the 33 patients, respectively. Increased concentrations of these two markers did not relate to the site of metastasis. However, the three tumor markers complemented each other in detecting early metastases. Increased CA 125 was associated with metastasis in or near the pleura, and in stage IV breast cancer it was related to poor prognosis.

Splenic marginal zone lymphoma with VH1-02 gene rearrangement expresses poly- and self-reactive antibodies with similar reactivity

One-third of all splenic marginal zone lymphomas (SMZL) use the IgH VH1-02 gene. These cases are usually not associated with hepatitis C virus infection. Of interest, the rearranged VH1-02 genes display similar complementarity determining regions 3, a finding confirmed by our study. The latter suggests that these SMZL may produce antibodies with similar reactivity. We produced recombinant antibodies from 5 SMZL cases with VH1-02 gene rearrangement to study the binding reactivity of these antibodies. Surprisingly, the recombinant antibodies demonstrated poly- and self-reactivity as demonstrated by their reactivity with nuclear, cytoplasmic, as well as membranous antigens expressed by human cells and by reactivity with human serum. This polyreactivity was specific as demonstrated by ELISA. The antibodies did not react with proteins on the cell surface that are induced by apoptosis as shown for antibodies produced by chronic lymphatic leukemia with VH1-02 gene rearrangement. The results indicate that a common subset of SMZL arises from polyreactive B cells, a subset of marginal zone B cells that are important in the immunologic defense against infection.

Epitopes on CA 125 from Cervical Mucus and Ascites Fluid and Characterization of Six New Antibodies

CA 125 is found in body fluids in a variety of molecular weight forms. The largest species are found in normal abdominal fluid and cervical mucus. The present study therefore incorporated CA 125 derived from these sources as well as ascites fluid to investigate if the source of CA 125 influenced epitope characterization. Ascites-derived CA 125 varied in size from about 190 to about 2,700 kD. Cervical mucus-derived CA 125 treated with ultrasound changed its apparent size from more than 20,000 to 700 kD. Epitope mapping of antibodies was not grossly influenced by the size or source of CA 125 used as target. However, low-molecular-weight CA 125, i.e. ascites fractions CA 17/E, CA 17/F and CA 10/7, did show differences in certain assay combinations and cross-inhibition patterns which probably can be explained by steric effects due to the smaller size compared with the most abundant forms of CA 125 present in serum and other body fluids. The specificity of six new monoclonal antibodies to CA 125 was tested by cross-inhibition and immunometric assay combinations and compared to reference antibodies. One antibody, X306, belonged to the OC125-like antibodies. Four antibodies, X52, X75, X325 and VK8, were M11-like. The sixth antibody, 7C12, reacted with an epitope which was difficult to define. This antibody was inhibited by M11-like antibodies and OV197. However, used as an inhibitor, 7C12 inhibited only itself. We grouped it as an OV197-like antibody, but clearly different from OV197. The topography of epitopes was studied by analyzing all antibody pairs in immunoradiometric assays. These results confirmed the grouping of antibodies described above and are in accordance with previous findings that the highest signal is obtained using an OC125-like antibody or OV197 on the solid phase and an M11-like antibody as tracer. The composition of the sample in terms of high- and low-molecular-weight species of CA 125 was measured, with different responses depending on the antibody pair used. This might be one reason for discrepancies between assay results for CA 125 using different assays.

Immunometric assay by flow cytometry using mixtures of two particle types of different affinity.

An improved dynamic range in a particle based flow cytometric immunoassay for carcinoembryonic antigen (CEA) was obtained using a binary mixture of two distinguishable particle types, namely particles of 7 and 10 microns diameter that were distinguishable by their light scattering characteristics in the flow cytometer. The two particle types were coated with antibody of the same specificity but different affinity. The association constants were 3.2 x 10(10) and 3.3 x 10(9) for the antibodies on the 7 and 10 micron particles, respectively. A dilution series of CEA samples was incubated with aliquots of the particle mixture and secondary biotin-streptavidin-phycoerythrin-conjugated antibody directed against a different epitope on the CEA molecule. The fluorescence intensity of the two particle types was measured flow cytometrically, and a double standard curve plotted from the mean logarithmic fluorescence values. The precision profile derived from the standard curve demonstrated that an increase in the dynamic range of about 50% (from 2 to 3 log) was obtained by using a mixture of high and low affinity particles, compared to using the high affinity particles alone.

Protein Epitopes in Carcinoembryonic Antigen

To characterize antigenic sites in carcinoembryonic antigen (CEA) further and to investigate whether there are differences between colon tumor CEA and meconium CEA (NCA-2) that can be detected by anti-CEA monoclonal antibodies (MAb), 19 new anti-CEA MAb were analyzed with respect to specificity, epitope reactivity and affinity. Their reactivities were compared with 10 anti-CEA MAb with known CEA-domain binding specificity that have previously been classified into five nonoverlapping epitope groups, GOLD 1–5. Cross-inhibition assays with antigen-coated microtiter plates and immunoradiometric assays were performed in almost all combinations of MAbs, using conventionally purified CEA (domain structure: N-A1B1-A2B2-A3B3-C) from liver metastasis of colorectal carcinomas, recombinant CEA, meconium CEA (NCA-2), truncated forms of CEA and NCA (CEACAM6) as the antigens. The affinity of the MAbs for CEA was also determined. The new MAbs were generally of high affinity and suitable for immunoassays. Three new MAbs were assigned to GOLD epitope group 5 (N-domain binding), 3 MAbs to group 4 (A1B1 domain), 1 to group 3 (A3B3 domain), 3 to group 2 (A2B2 domain) and 3 to group 1 (also the A3B3 domain). Three MAbs formed a separate group related to group 4, they were classified as GOLD 4′ (A1B1 domain binding). The remaining 3 MAbs appear to represent new subspecificities with some relationship to GOLD groups 1, 2 or 4, respectively. Five MAbs, all belonging to epitope group 1 and 3, reacted strongly with tumor CEA but only weakly or not at all with meconium CEA, demonstrating that the two products of the CEA gene differ from each other, probably due to different posttranslational modifications.

Selection of monoclonal antibodies for use in an immunometric assay for carcinoembryonic antigen

Six high-affinity mouse monoclonal antibodies against carcinoembryonic antigen produced in our laboratory were evaluated for use in a solid-phase immunoradiometric assay. The antibodies all recognized single peptide epitopes, one being highly conformation dependent. Cross-inhibition studies demonstrated that three antibodies bound to different epitopes, while the remaining three bound to the same or to very closely related epitodes. All antibodies strongly stained colorectal cancer tissue. The three antibodies binding to the same epitode also stained normal granulocytes, indicating a reactivity with the non-specific cross-reacting antigen. On the basis of the results of the characterization, two antibodies were selected for use in a sandwich immunometric assay. One of these was coupled to 2.8 microns magnetizable polymer particles, while the other one was radiolabelled. The assay required 2 h incubation to reach equilibrium, having a working range up to 135 micrograms/l and a sensitivity (Zero + 2 SD) of 0.1 micrograms/l. A comparison of the new assay with two commercial CEA kits that also use monoclonal antibodies was carried out on a small panel of serum samples from colorectal cancer patients and revealed satisfactory correlations but also discrepancies that must be attributed to differences in epitope specificity.

Exploring the Complementary Selectivity of Immunocapture and MS Detection for the Differentiation between hCG Isoforms in Clinically Relevant Samples

Whereas numerous immunoassays have been developed to ensure detection of the entire spectrum of isoforms displayed by the human chorionic gonadotropin (hCG) molecule, significant variation has been demonstrated in how these isoforms are recognized by the antibodies in different immunoassays. The aim of this study was to establish a method using the dual selectivity of the immunoextraction and the mass spectrometry detection for the differentiation between various hCG isoforms in clinically relevant samples. Immunoextraction of endogenous hCG isoforms using a monoclonal antibody (E27) on a 96-well microtitier plate, followed by in-well tryptic digestion, and SIM monitoring of the selected signature peptides, resulted in the qualitative differentiation between several hCG isoforms in serum or urine. We conclude that the orthogonal selectivity conferred by the combination of immunoaffinity extraction and LC-MS analysis offers valuable complementary information to the conventional immunoassays.

Epitopes on CA 125 fron cervical mucus and ascites fluid and characterization of six new antibodies - Third report from the ISOM TD-1 workshop

CA 125 is found in body fluids in a variety of molecular weight forms. The largest species are found in normal abdominal fluid and cervical mucus. The present study therefore incorporated CA 125 derived from these sources as well as ascites fluid to investigate if the source of CA 125 influenced epitope characterization. Ascites-derived CA 125 varied in size from about 190 to about 2,700 kD. Cervical mucus-derived CA 125 treated with ultrasound changed its apparent size from more than 20,000 to 700 kD. Epitope mapping of antibodies was not grossly influenced by the size or source of CA 125 used as target. However, low-molecular-weight CA 125, i.e. ascites fractions CA 17/E, CA 17/F and CA 10/7, did show differences in certain assay combinations and cross-inhibition patterns which probably can be explained by steric effects due to the smaller size compared with the most abundant forms of CA 125 present in serum and other body fluids. The specificity of six new monoclonal antibodies to CA 125 was tested by cross-inhibition and immunometric assay combinations and compared to reference antibodies. One antibody, X306, belonged to the OC125-like antibodies. Four antibodies, X52, X75, X325 and VK8, were M11-like. The sixth antibody, 7C12, reacted with an epitope which was difficult to define. This antibody was inhibited by M11-like antibodies and OV197. However, used as an inhibitor, 7C12 inhibited only itself. We grouped it as an OV197-like antibody, but clearly different from OV197. The topography of epitopes was studied by analyzing all antibody pairs in immunoradiometric assays. These results confirmed the grouping of antibodies described above and are in accordance with previous findings that the highest signal is obtained using an OC125-like antibody or OV197 on the solid phase and an M11-like antibody as tracer. The composition of the sample in terms of high- and low-molecular-weight species of CA 125 was measured, with different responses depending on the antibody pair used. This might be one reason for discrepancies between assay results for CA 125 using different assays. Copyright (C) 2002 S. Karger AG, Basel.