These data suggest that antibodies directed against the gamma2 chain of laminin-5 can identify cervical lesions with invasive capacity and thus may be useful as a sensitive marker of early invasion.
The study of viral infectivity and detection of viral capsid antigens of the major cervical cancer-associated human papillomavirus (HPV) type, HPV-16, requires knowledge of which epitopes are exposed in clinical specimens of infected tissue or on intact capsids. To define the antigenic epitopes ofHPV-16, antisera to 66 overlapping synthetic peptides corresponding to the HPV-16 capsid proteins L1 and L2 and to seven peptide analogues were tested in immunoperoxidase stainings of consecutive sections from formalin-fixed, paraffin-embedded HPV infected tissue. Antisera against eleven different peptides from L1 and against seven different peptides from L2 recognized the HPV capsid antigen. Most epitopes were only found on the capsid antigen of certain genital HPV types, but four antigenic epitopes in L1 were detectable also in cutaneous wart specimens. All antigenic epitopes in L2 were restricted to genital HPV types and four L2 epitopes were only detectable in HPV-16 or HPV-33 positive specimens. The surface exposure of the antigenie epitopes was investigated by comparing the reactivity of the antipeptide antisera with intact or disrupted virions or capsids of HPV-11, HPV-16 and bovine papillomavirus (BPV). Twenty antipeptide sera from L1 and seven antipeptide sera from L2 were reactive with intact HPV-16 capsids at titres up to 1 : 146000. Sixteen of these antisera were also reactive with disrupted HPV-16 capsids. Cross-reactivity with disrupted HPV-11 and BPV was detected for eleven and six antisera, respectively, whereas intact HPV-11 or BPV virions showed only weak cross-reactivity. In conclusion, the HPV-16 L1 and L2 capsid proteins contained multiple antigenic epitopes, most of which were shared with one or several additional HPV types.
DNA replication and centrosome duplication have to be strictly synchronized to guarantee genomic stability. p53, pRb, cyclin E, and cyclin A are reported to be involved in the synchronizing process. We investigated the relationship between papillomavirus infection, centrosome aberration and aneuploidy during genesis of cervical carcinoma. The number of centrosomes found in cells from normal cervical epithelium (n ؍ 5), condyloma acuminata (n ؍ 5), cervical intraepithelial neoplasia (CIN) I, II, and III (n ؍ 14) and invasive cervical carcinoma (n ؍ 5) was analyzed by ␥ tubulin immunofluorescence staining. The nuclear DNA content was investigated by image cytometry and human papillomavirus (HPV) infection was determined by polymerase chain reaction. Normal epithelia and condyloma acuminata showed cells with one or two centrosomes, whereas CIN lesions showed cells with an increasing number of centrosomes. This abnormality was found to be lowest in CIN I lesions, increased with advancing grade of CIN and was highest in lesions of invasive carcinomas. In parallel, an increasing number of cells with aberrant DNA content was seen. All carcinomas and all except one of the CIN III lesions showed aneuploidy. Three CIN II cases were aneuploid and two cases with CIN I were tetraploid. Normal epithelia and condyloma acuminata showed diploidy. All invasive carcinomas and lesions with CIN were positive for high-risk HPV types 16, 18, or 31, except one invasive carcinoma and one CIN II lesion positive for universal primers only. Three condyloma acuminata were HPV 16-positive and one HPV 6-positive.The results suggest that high-risk HPV infection is correlated to a progressive numerical disturbance of centrosome replication followed by progressive chromosomal aberrations in CIN lesions and invasive carcinomas.
A total of 101 primary cervical adenocarcinomas were analyzed for the presence of p16 INK4a and MIB-1 expression in correlation with the presence of 'high-risk' types of human papillomavirus (HR-HPV) and clinical outcome.We found that adenocarcinoma grading showed a significant negative correlation to p16 INK4a levels (p=0.001): i.e. we found less intense p16 staining in poorly differentiated tumors than in more highly differentiated tumors as well as a highly significant correlation between HPV infection and higher levels of p16 INK4a staining (p=0.00), which was similar for different HPV-types. Tumor suppressor protein p16 INK4a levels were higher in HPV positive than in HPV negative tumors. Higher levels of the proliferation marker MIB-1 were associated with poorer outcome. Higher MIB-1 levels were seen in tumors with a lower grade and higher stage at diagnosis. Moreover, MIB-1 levels seem to be higher in tumors due to infection with HPV 16 and 18 compared with HPV 45. MIB-1 may be a helpful marker in grading adenocarcinoma: a high level of expression of MIB-1 indicates a low grade of tumor, whereas high expression of p16 INK4a indicates a highly differentiated of the tumor. Thus, immunostaining for p16 INK4a appears to be a useful diagnostic tool for cervical adenocarcinoma.
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