Expression of cytokeratin polypeptides in human papillomavirus (HPV) lesions of the uterine cervix: 1. Relationship to grade of CIN and HPV type.

A series of 74 punch biopsies, derived from 513 women prospectively followed for cervical human papillomavirus (HPV) infections (including HPV-NCIN, HPV-CIN I, HPV-CIN II, and HPV-CIN III lesions), and 43 control cases (consisting of normal epithelia, nonspecific cervicitis, and classical CIN lesions) were analysed for expression of cytokeratin polypeptides using the ABC technique and monoclonal antibodies SK 56-23 (wide-spectrum antibody), SK 60-61 (specific for keratins 8 and 18), and SK 2-27 (detecting keratins 14, 16, and 17). HPV typing was carried out using the in situ hybridization technique with DNA probes for HPV 6, 11, 16, 18, and 31. All layers of the exocervical epithelium were regularly stained with the antibody SK 56-23, and the staining pattern remained unaltered in all cervical lesions studied. In contrast to the normal exocervical epithelium, which remained negative with SK 60-61, positive staining was observed in 3 of 15 cervicitis cases and 6 of 23 classical CIN lesions. Interestingly, the majority (69 of 74, 93.2%) of both HPV-NCIN and HPV-CIN lesions showed positive staining with this antibody either in all layers or in suprabasal cells. Antibody SK 2-27 stained the basal cells of the normal exocervical epithelium with remarkable specificity. In 18 of 19 HPV-NCIN lesions, basal cells could not be stained by SK 2-27 monoclonal, but the suprabasal cells were stained instead. In HPV-CIN, but not in classical CIN, this antibody demonstrated the presence of the epitope typical of the cytokeratins 14, 16, and 17 in all layers of the epithelium, the highest frequency (9 of 12, 75%) being found in HPV 16-induced lesions. These disturbances of cytokeratin patterns in cervical epithelium could be associated with cell transformation by HPV, leading to development of HPV-CIN, and could be specific for this virus. The present data are of interest in assessing the stage of maturation of the squamous cells in progressing cervical HPV infections.