The selection and characterization of a set of mouse mAbs against high-risk human papillomavirus (HPV) E7 oncoprotein and the development of protocols for immunocytochemistry (ICC) are described here. A large number of antibodies raised towards HPV16 and 18 E7 were tested for high-risk specificity by ELISA using a panel of HPV E7 proteins. Antibodies detecting low-risk E7 were discarded, resulting in 38 high-risk HPV E7-specific antibodies. The corresponding epitopes were mapped using overlapping HPV E7 fragments displayed on phage particles. Functionality in ICC against formalin-fixed cervical cancer cell lines was demonstrated for ten mAbs; their high-risk specificity was confirmed by Western blot analysis and ICC on transiently transformed cells expressing high-or low-risk HPV E7. These mAbs were specific for one or several of the high-risk strains HPV16, 18, 31, 35 and 45. Specific E7 staining of liquid-based cytology (LBC) samples was demonstrated for seven mAbs and optimized protocols were established. The E716-41 and E718-79 mAbs demonstrated particularly strong and specific staining of cells stored in LBC fluid for at least 6 months. It is proposed that the high-risk HPV E7 staining protocols established in this study may have the potential to be included in a complementary test for the detection and identification of malignantly transformed cells, in for example atypical squamous cells of undetermined significance samples.
Twelve antibodies to neuron-specific enolase (NSE) have been evaluated by four working groups. Human brain γγ-enolase, neuroblastoma-derived αγ-enolase, and recombinant γγ-enolase were used to determine antibody specificity and binding kinetics. All antibodies were found to be specific for the γ-isoform. It was possible to assign 11 of the antibodies to at least five epitope groups based on cross-inhibition experiments, QCM and SPR technology, and immunoassay combinations. Antibodies 9601 and 9602 showed the highest affinity for both native and recombinant γγ-enolase. Immunometric assays for both γγ- and αγ-enolase could be made by pairing 9601 with most of the other ISOBM antibodies. Antibodies differed in their ability to recognize native αγ-enolase, native γγ-enolase, and recombinant γγ-enolase. Some immunometric assay combinations appear to favor the detection of heterodimeric αγ-enolase over the homodimeric γγ-enolase. Although the majority of the antibodies failed to detect human NSE or recombinant NSE in Western blots, mAb 9601 recognized both, while E17 and 18E5 were specific for human NSE.
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