Flow cytometric multiparameter analysis of proliferating cell nuclear antigen/cyclin and Ki-67 antigen: a new view of the cell cycle

Flow cytometric multiparameter analysis of two proliferation-associated nuclear antigens (proliferating cell nuclear antigen (PCNA)/cyclin and Ki-67) was performed on seven human hematopoietic cell lines. PCNA/cyclin, an S phase-related antigen, was detected using an autoantibody and a fluorescein isothiocyanate-labeled anti-human antibody. The Ki-67 antigen, which in cycling cells is expressed with increasing levels during the S phase with a maximum in the M phase, was detected using a monoclonal antibody and a phycoerythrin-conjugated anti-mouse antibody. In some experiments the PCNA/Ki-67 staining was combined with a DNA stain, 7-amino actinomycin D, and simultaneous detection of the three stains was performed by a single laser flow cytometer. Using this technique four distinct cell populations, representing G1, S, G2, and M, respectively, could be demonstrated in cycling cells on the basis of their PCNA/cyclin and Ki-67 levels. The cell cycle phase specificity could be verified using metaphase (vinblastine, colcemide) and G2 phase (mitoxantrone) blocking agents, as well as by stainings with a mitosis-specific antibody (MPM-2). Also, G0 cells could be discriminated from G1 cells in analysis of a mixture of resting peripheral mononuclear blood cells and a proliferating cell line. This technique can be valuable in detailed cell cycle analysis, since all cell cycle phases can be visualized and calculated using a simple double staining procedure.     

Intranuclear localization of the Ki-67 reactive antigen in HeLa cells. Flow cytometric analysis

The intranuclear localization of the Ki-67 reactive antigen was immunocytochemically investigated using flow cytometry. HeLa S3 cells were immunocytochemically stained with the monoclonal antibody, Ki-67, after in situ treatments with various kinds of compounds, namely: HCl; NaCl; RNase; Sl nuclease and DNase I. The only treatment that markedly diminished the immunofluorescence intensity of the cells was exposure to DNase I. Nuclear fluorescence was no longer observed in the cells digested with relatively high concentrations of DNase I. These results suggest that the antigen recognized by Ki-67 is closely associated with DNA, but is not directly associated with either the nuclear matrix or histones.     

Intranuclear localization of the Ki-67 reactive antigen in HeLa cells. Flow cytometric analysis

The intranuclear localization of the Ki-67 reactive antigen was immunocytochemically investigated using flow cytometry. HeLa S3 cells were immunocytochemically stained with the monoclonal antibody, Ki-67, after in situ treatments with various kinds of compounds, namely: HCl; NaCl; RNase; S1 nuclease and DNase I. The only treatment that markedly diminished the immunofluorescence intensity of the cells was exposure to DNase I. Nuclear fluorescence was no longer observed in the cells digested with relatively high concentrations of DNase I. These results suggest that the antigen recognized by Ki-67 is closely associated with DNA, but is not directly associated with either the nuclear matrix or histones.     

Cell cycle-related proteins: a flow cytofluorometric study in human tumors

We used 2-parameter flow cytometry (FCM) to investigate the relationship between the cell cycle phases and 3 proteins whose expression is known to increase in proliferating cells: the surface antigen transferrin receptor (Trf-r), the "cyclin" (a proliferating cell nuclear antigen, PCNA), and the nuclear antigen recognized by the monoclonal antibody (MoAb) Ki-67. FITC-labeled antibodies against Trf-r, PCNA, and the Ki-67-reactive antigen, as well as propidium iodide-DNA distribution, were simultaneously measured on human leukemia HL-60 and K562, and breast carcinoma MCF-7 cell lines and on fresh human leukemic and glioblastoma cells. The 70% ethanol fixation for Trf-r and PCNA and the 95% acetone fixation for Ki-67 plus permeabilization (with 0.1% and 1% Triton X100, respectively, for the surface and the nuclear antigens) produced cell suspensions with negligible cell clumping, high-quality DNA profiles, and bright specific immunofluorescent staining. The investigated proteins have different relationships with the proliferative state of the cell. Trf-r is expressed mainly at the transition from G0/G1 to S-phase. PCNA expression is prominent in late G1 and through S-phase and decreases in G2-M. The Ki-67-reactive antigen is widely distributed in G1, S, and G2-M phases. Knowledge regarding the relationships between proliferation-associated antigens and cell cycle phase in normal and neoplastic cells could improve our understanding of the mechanisms underlying growth regulation and neoplastic transformation. Bivariate FCM is an easy method for obtaining these data from large numbers of cells.     

Comparison of monoclonal antibodies PC 10 and MIB 1 on microwave-processed paraffin sections

Abstract. Antibodies against the proliferation-associated nuclear antigen (PCNA) and against the Ki-67 protein are widely used as operational proliferation markers in human tumour diagnostics. The original Ki-67 antibody had the inherent drawback in that it could only be used when fresh-frozen material was available. The antibody PClO was supposed to offer the advantage that it could be applied on formalin-fixed and paraffin-embedded tissues. However, in cases in which the formalin fixation exceeded 4 h, PC10 staining proved to be inconsistent and often failed.
The aim of this study was to compare a recently prepared Ki-67 equivalent monoclonal antibody (MIB 1) and PC10 in routinely fixed histopathological material using antigen retrieval by microwave processing.
Antibody MIB 1 stained the nuclei of cells known to belong to the proliferative compartments in microwave-processing paraffin sections of formalin-fixed tissues. Quiescent cells were consistently negative for MIB 1 staining. In contrast, PC10 was positive in almost all nuclei of different tissues in microwave-treated paraffin sections. Thus, antigen retrieval by microwave processing is beneficial for the detection of the Ki-67 protein in paraffin sections, whereas it is not needed for the detection of the PCNA.     

Isolation and comparative characterization of Ki-67 equivalent antibodies from the HuCAL phage display library

It has been shown that a repetitive motif with the sequence FKEL(F) within the Ki-67 antigen (pKi-67) serves as an epitope for the Ki-67 antibody and equivalent clones. However, no direct correlation between reactivity towards Ki-67 epitopes and reactivity in formalin-fixed paraffin-embedded (FFPE) tissue could be found. In this study our aim was the isolation and characterization of new monoclonal Ki-67 equivalent antibodies in an in vitro approach. To select pKi-67 reactive phage antibodies, we used a large naive Fab-phage library (Human Combinatorial Antibody Library; HuCAL). We implemented a panning strategy against two different overlapping peptides, both containing the 'FKELF' epitope. ELISA screening of randomly picked phage antibody clones after the third selection round yielded six highly reactive clones against the 'FKELF' epitope, of which five were found to be reactive in FFPE tissue, showing a Ki-67 equivalent staining pattern. Substitutional epitope analysis on peptide arrays of the new recombinant pKi-67 binders and of the established murine clones Ki-67, Mib-1 and Mib-5 were carried out to compare their fine specificities. The results suggest that the lysine residue in the epitope is critical for recognition of Ki-67 antigen in FFPE tissue.     

Evolutionary conservation in various mammalian species of the human proliferation-associated epitope recognized by the Ki-67 monoclonal antibody

The human proliferation-associated epitope recognized by the Ki-67 monoclonal antibody (MAb) was detected in proliferating normal and neoplastic cells of many mammalian species (lamb, calf, dog, rabbit, rat) besides human. In contrast, Ki-67 stained proliferating cells from other species weakly (mouse) or not at all (swine, cat, chicken, pigeon). The immunostaining pattern of Ki-67 in animal tissues was identical to that previously described in human: Ki-67 reacted only with cells known to proliferate (e.g., germinal center cells, cortical thymocytes) but not with resting cells (e.g., hepatocytes, brain cells, renal cells); this MAb produced a characteristic nuclear staining pattern (e.g., stronger labeling of nucleoli than of the rest of the nuclei and staining of chromosomes in mitotic figures); and Ki-67 crossreacted with the squamous epithelium in both animal and human tissues. In vitro studies showed that when quiescent (Ki-67-negative) NIH 3T3 fibroblasts or bovine peripheral blood lymphocytes were induced to proliferate, the appearance of Ki-67-positive cells paralleled the induction of cell proliferation caused by addition of fetal calf serum or PHA, respectively, to the cultures, and in both human and rat proliferating cells the Ki-67 expression closely paralleled the incorporation of [3H]-thymidine. These findings indicate that the epitope recognized by the Ki-67 MAb in human and animal species is the same. The widespread evolutionary conservation of the human proliferation-associated epitope recognized by the Ki-67 MAb suggests that it and/or its carrier molecule may play an important role in regulation of cell proliferation.     

Cell cycle-dependent reactivity with the monoclonal antibody Ki-67 during myeloid cell differentiation

The specificity and sensitivity of the monoclonal antibody Ki-67 in identifying proliferating cell compartments was tested with the human promyelocytic leukemia cell line HL-60 using multi-parameter flow cytometry. While correlated measurements of DNA content and Ki-67 immunofluorescence indicated that the antigen was present in all phases of the cell cycle, reactivity with the antibody was highest in proliferating S and G2+M cells. The analysis of the BrdU content of cells sorted on the basis of reactivity with Ki-67 showed a correlation between Ki-67 reactivity and BrdU uptake. In HL-60 cells induced to differentiate with dimethyl sulfoxide (DMSO), the loss of reactivity with Ki-67 paralleled the exit of cells from the cell cycle. This was not observed in DMSO-resistant HL-60 cells. These results validate the usefulness of the Ki-67 antibody for determining the proliferative stage of mammalian cells in culture.     

Expression of p120, Ki-67 and PCNA as proliferation biomarkers in imprint smears of prostate carcinoma and their prognostic value

The cell proliferation markers p120, Ki-67 and proliferating cell nuclear antigen (PCNA) recognize nuclear antigens. The expression of these proteins by immunostaining methods was reported to be of value in determining the prognosis of patients with malignant diseases. In this study, we evaluated the prognostic significance of the expression of nuclear antigens p120, PCNA and Ki-67 in prostate cancer and compared the results with other prognostic factors. Imprint smear samples obtained from 70 patients immediately after radical prostatectomy for prostatic carcinoma were immunostained with monoclonal antibodies against p120, Ki-67 and PCNA. The immunostaining results were correlated with Gleason score, tumour differentiation, stage and prostatic specific antigen (PSA) levels. Our findings demonstrate that p120, Ki-67 and PCNA expression in prostatic carcinoma smears, correlated significantly with the degree of Gleason score (P < 0.001). When combining p120, Ki-67 and PCNA positivity with tumour differentiation there was a significant association among these parameters (P < 0.001). Overexpression of p120, Ki-67 and PCNA, was also associated with increased PSA serum levels (>4 ng/ml) (P < 0.001). The distribution of p120, Ki-67 and PCNA expression in prostate carcinomas was not statistically significant for Ki-67 (P = 0.69) and p120 (P = 0.22) but was significant for PCNA (P < 0.001) as far as the histological stage (T2a, T2b, T2c, T3a). P120, Ki-67 and PCNA expression had significant prognostic value for disease-free survival. Our results conclude that nuclear antigens p120, Ki-67 and PCNA appear to be additional markers in the field of prognosis of prostatic carcinoma.     

Cell cycle analysis of a cell proliferation-associated human nuclear antigen defined by the monoclonal antibody Ki-67

The monoclonal antibody Ki-67 detects a nuclear antigen that is present only in proliferating cells. The aim of the present investigation was to clarify whether the Ki-67 nuclear antigen is restricted in its expression to certain phases of the cell cycle. All experiments consistently showed that the Ki-67 nuclear antigen is present in S, G2, and M phase, but is absent in G0. However, the results concerning Ki-67 antigen expression in G1 phase varied: cells passing the early events of mitogen triggered transition from G0 to G1, i.e., G1T and first G1A, lacked the Ki-67 nuclear antigen, whereas G1 cells after mitosis were constantly Ki-67-positive. This result suggests that after mitosis cells might not follow the same metabolic pathways as G0 cells do when entering G1 for the first time. Therefore, we suggest that the early stages of mitogen stimulation represent initial sequences of proliferation and not parts of the cell cycle. Because our data show that the Ki-67 nuclear antigen is present throughout the cell cycle, immunostaining with monoclonal antibody Ki-67 provides a reliable means of rapidly evaluating the growth fraction of normal and neoplastic human cell populations.     

Cell cycle dependent expression and stability of the nuclear protein detected by Ki-67 antibody in HL-60 cells

The expression and stability of the proliferation-associated nuclear antigen detected by Ki-67 antibody have been investigated in human promyelocytic leukaemic HL-60 cells in relation to their progression through the cell cycle. Expression of this antigen was minimal in late G1 and early S phase cells. The antigen accumulated in the cells predominantly during S phase, and its rate of increase per cell accelerated during the second half of this phase. The accumulation of Ki-67 antigen during S exceeded the increase in DNA content, and thus the Ki-67/DNA ratio rose 80% from late G1 to G2 + M. This antigen rapidly disappeared from post-mitotic cells. The half-life of this protein estimated in post-mitotic cells during stathmokinesis induced by vinblastine appeared to be shorter than 1 h. This rapid turnover should be compared with the relatively long (6-8 h) duration of G1 of the studied cells. In cells in which de novo protein synthesis was inhibited by 0.1 microgram/ml cycloheximide, the half-life of the Ki-67 antigen was also found to be about 1 h regardless of the cell position in the cell cycle. Thus, the data suggest that variations in the level of this protein during the cell cycle are a consequence of its different synthesis rate rather than phase-specific changes in the rate of its degradation. Because the late G1 and very early S phase cells express the antigen at levels only slightly above background, it is possible that, when using Ki-67 antibody as a marker of the cell growth fraction, some late G1 cells can be erroneously classified as non-cycling cells.     

Image analysis of in situ cell cycle related changes of PCNA and Ki-67 proliferating antigen expression

Abstract. This study reports on the proliferating cell nuclear antigen (PCNA) and Ki-67 cell cycle related expression and distribution pattern analysed in the same cells. MCF-7 cells were synchronized by mitotic detachment and triple stained for DNA, PCNA and Ki-67. The major cell type was identified on each time sample as a function of the PCNA/Ki-67 pattern, and both antigens as well as DNA were quantified. During G₁ phase, the expression of PCNA greatly increased whereas Ki-67 content decreased. During S phase, nuclear Ki-67 content continuously increased especially in the second half of this phase, mainly due to the accumulation of the antigen in the nucleoli. During G₂ phase, the antigen significantly passed into the nucleoplasm, its content continued to increase and reached its maximum in mitotic cells. Nuclear PCNA content mostly increased in the first part of S phase and sharply declined in mitotic cells as the antigen shifted to the cytoplasm. Cells showing PCNA positive Ki-67 negative labelling were observed in all time samples from the beginning of the experiment. Their nuclear size, DNA content (of G₁ cells), PCNA content (equivalent to the content of some late G, cells) and time occurrence (their percentage increased after the last late G₁ cells had disappeared) tend to indicate that these cells have left the cycle by the end of G₁ phase to enter a quiescent state. Cells coming out of mitosis split into two groups according to their Ki-67/PCNA content. The biggest fraction was PCNA negative and Ki-67 positive while the smallest showed positive staining for both antibodies. Cells of this second cohort slowly lost their 1–67 while their PCNA content increased as they moved through G₁. Concurrently, most of the cells of the first cohort (here called Q2 and Q3 cell types) lost their Ki-67 without increasing their PCNA content; then they joined cells of the second cohort by increasing their PCNA content at the end of G, phase. Some cells of this first cohort can also increase their PCNA and thus reach cells of the first cohort before the end of G₁ phase. The existence of these two main cell cohorts suggests that cells after mitosis differ in some way that make them progress dlfferently through G₁. Some cells seem to go through early G₁ (G_1a and late G₁ (G_lb) while others may come out of mitosis committed to go through the following cycle by directly entering late G₁ compartment.     

Follicular cells versus oocytes: cell population dynamics in the developing ovary

The aim of the current paper is to evaluate the correlation of germ and follicular cells kinetics during ovarian morphogenesis. Thus, immunohistochemical detection of PCNA and Ki-67 proteins has been examined using PC10 (Dako) and NCL-Ki-67 (Novocastra) antibodies in the developing ovaries of Wistar rat embryos and neonates [14.5, 18.5, 20.5days post-coitum (dpc), birth (day 0), 1, 3, 5, 7day post-partum (dpp)]. Estimation of reactive/total cell ratio, per cell type (germ and follicular cells) and visual field was achieved using the Image Pro Plus Software. The statistical interpretation of the results has shown that, before birth, using the PCNA antibody, the percentage of labeled/total germ cells (labeling index, LI) increases from 71.19% at 14.5dpc to 75.66% at 18.5dpc. It then decreases to 73.26% at 20.5dpc. At birth, the labeling index drops significantly (28.57%). Immediately after birth, the percentage of labeled/total germ cells increases, reaching 43.58% at 1dpp. Subsequently, a further decrease in the percentage of reactive cells is observed resulting to a maximum drop of the LI at 7dpp (18.41%). Using the Ki-67 antibody, the percentage of labeled/total germ cells is generally lower although the fluctuation is similar with that observed using the first marker of cell proliferation. Using the PCNA antibody, the LI of follicular cells in the developing ovary, increases from 0.70% (at 14.5dpc) to 28.94% (at 18.5dpc) and then drops to 18.03% (at 20.5dpc). At birth, the percentage of reactive follicular cells, reaches 27.66% and remains high thereafter. Similar results are obtained using the Ki-67 antibody. In conclusion, follicular cell reaction ratio, using both antibodies (PCNA and Ki-67), increases continuously throughout the examined period with a maximum value at 7dpp, suggesting a kinetics profile similar to that observed for Sertoli cells in the testis. In all age groups, PCNA labeling is more intense than Ki-67, a result that may be attributed to selective staining at different periods of the cell cycle.     

The cell proliferation-associated antigen of antibody Ki-67: a very large, ubiquitous nuclear protein with numerous repeated elements, representing a new kind of cell cycle-maintaining proteins

The antigen defined by mAb Ki-67 is a human nuclear protein the expression of which is strictly associated with cell proliferation and which is widely used in routine pathology as a "proliferation marker" to measure the growth fraction of cells in human tumors. Ki-67 detects a double band with apparent molecular weights of 395 and 345 kD in immunoblots of proteins from proliferating cells. We cloned and sequenced the full length cDNA, identified two differentially spliced isoforms of mRNA with open reading frames of 9,768 and 8,688 bp encoding for this cell proliferation-associated protein with calculated molecular weights of 358,761 D and 319,508 D, respectively. New mAbs against a bacterially expressed part and a synthetic polypeptide deduced from the isolated cDNA react with the native Ki-67 antigen, thus providing a circle of evidence that we have cloned the authentic Ki-67 antigen cDNA. The central part of the Ki-67 antigen cDNA contains a large 6,845-bp exon with 16 tandemly repeated 366-bp elements, the "Ki-67 repeats", each including a highly conserved new motif of 66 bp, the "Ki-67 motif", which encodes for the epitope detected by Ki-67. Computer analysis of the nucleic acid and the deduced amino acid sequence of the Ki-67 antigen confirmed that the cDNA encodes for a nuclear and short-lived protein without any significant homology to known sequences. Ki-67 antigen-specific antisense oligonucleotides inhibit the proliferation of IM-9 cell line cells, indicating that the Ki-67 antigen may be an absolute requirement for maintaining cell proliferation. We conclude that the Ki-67 antigen defines a new category of cell cycle-associated nuclear nonhistone proteins.     

Assignment of the gene(s) involved in the expression of the proliferation-related Ki-67 antigen to human chromosome 10

Summary The antigen recognized by the monoclonal antibody Ki-67 is a proliferation-related nucleolus-associated constituent used as a marker for cycling cells in tumor diagnosis. Antibody Ki-67 reacts with human proliferating cells, but not with hamster and mouse cells. Expression of the Ki-67 antigen was studied in a panel of human-rodent somatic cell hybrids. The results indicate that a gene involved in the expression of the antigen is located on chromosome 10.     

Ki-67 monoclonal antibody (MAb) reacts with a proliferation associated nuclear antigen in the rabbitOryctolagus cuniculus

Summary The Ki-67 monoclonal antibody which recognizes a human nuclear antigen expressed by cycling cells but not by resting cells was found to react immunohistochemically with tissues from the rabbitOryctolagus cuniculus. Ki-67 immunoreactivity was restricted to the nucleus. A comparative study with bromodeoxyuridine labelling patterns was carried out to study the association with proliferating cells. In lingual, jejunal and appendix mucosa, skin, adrenal gland, thymus, spleen, bone marrow, testis, growth cartilage, periosteum and perichondrium of long bones the distribution of Ki-67 positive and bromodeoxyuridine labelled cells was similar and consistent with the distribution of proliferating cells in these tissues. In tissue from the brain, kidney, skeletal or cardiac muscle and liver no Ki-67 positive or bromodeoxyuridine labelled cells were seen. In cartilage labelled in vivo with tritiated thymidine, all thymidine labelled cells were also Ki-67 positive. These results suggest that the Ki-67 antibody recognizes a nuclear antigen in the rabbit that is associated with cell proliferation and is expressed by cells in S-phase as well as in other phases of the cell cycle.     

Ki-67 monoclonal antibody (MAb) reacts with a proliferation associated nuclear antigen in the rabbit Oryctolagus cuniculus

The Ki-67 monoclonal antibody which recognizes a human nuclear antigen expressed by cycling cells but not by resting cells was found to react immunohistochemically with tissues from the rabbit Oryctolagus cuniculus. Ki-67 immunoreactivity was restricted to the nucleus. A comparative study with bromodeoxyuridine labelling patterns was carried out to study the association with proliferating cells. In lingual, jejunal and appendix mucosa, skin, adrenal gland, thymus, spleen, bone marrow, testis, growth cartilage, periosteum and periochondrium of long bones the distribution of Ki-67 positive and bromodeoxyuridine labelled cells was similar and consistent with the distribution of proliferating cells in these tissues. In tissue from the brain, kidney, skeletal or cardiac muscle and liver no Ki-67 positive or bromodeoxyuridine labelled cells were seen. In cartilage labelled in vivo with tritiated thymidine, all thymidine labelled cells were also Ki-67 positive. These results suggest that the Ki-67 antibody recognizes a nuclear antigen in the rabbit that is associated with cell proliferation and is expressed by cells in S-phase as well as in other phases of the cell cycle.     

Simultaneous flow cytometric analysis of surface markers and nuclear Ki-67 antigen in leukemia and lymphoma

The monoclonal antibody Ki-67 identifies an antigen present during the late G1, S, G2, and M phases of the cell cycle, whereas resting cells do not express this antigen. Immunostaining with Ki-67 provides a simple method with which to determine the growth fraction of a malignant cell population without requiring a laborious procedure or use of radioactive materials. Thus far, detection of Ki-67-positive cells by flow cytometry was limited because of nuclear location of the antigen. In this study, periodate-lysine-paraformaldehyde (PLP) fixation of cells in suspension, labeling with Ki-67, and the subsequent flow cytometric analysis of the tumor growth fraction is described. Fixation with PLP at -10 degrees C for 15 min rendered the plasma membrane permeable without destroying cell surface antigens. Thus double immunofluorescence studies using both a surface marker and Ki-67 could be performed. This offers the additional advantage of being able to define the phenotype of proliferating cells. This method was applied to determine the growth fraction in peripheral blood and bone marrow samples of patients with leukemia and non-Hodgkin's lymphoma. The results of Ki-67 studies in 91 patients are shown. A wide variability of individual Ki-67 values was observed within each entity. Use of this flow cytometric procedure substantially facilitates the quantification of proliferating cells in pathological blood and bone marrow samples.     

Cell proliferation in prostatic carcinoma: comparative analysis of Ki-67, MIB-1 and PCNA

Summary Antibodies to assess the proliferative index of tumours are being increasingly employed together with established markers for prognostic evaluation. This study set out to compare three cell proliferation markers, Ki-67, MIB-1 and PCNA, utilizing a semiquantitative method of assessment, in 20 human prostatic carcinomas. The streptavidin-biotin immunostaining system was used for the monoclonal antibodies MIB-1 and PCNA and an indirect immunoperoxidase assay for the monoclonal antibody Ki-67. Significant correlations were found between the expression of Ki-67 in frozen tissues and MIB-1 in formal saline-fixed wax-embedded tissues (p = 0.0003); between Ki-67 and PCNA expression in Bouin's-fixed tissues (p </ 0.0001); and MIB-1 (formalin-saline-fixed tissues) and PCNA (Bouin's-fixed tissues) (p </ 0.0001). A more intense nuclear staining pattern with less heterogeneity was observed for MIB-1 compared with PCNA, suggesting the antibody of choice, on formal saline-fixed tissues, is MIB-1, which closely correlated with Ki-67, a marker we have previously shown to be of prognostic value in prostatic carcinoma.     

PCNA independence of Ki-67 expression in HPV infection.

12 Infectious Wart lesions were stained using the streptavidin-biotin immunoperoxidase method for PCNA10, MIB-1 (Ki-67 equivalent antigen) and Human Papilloma Virus antigen to study the effect of HPV presence on epidermal proliferation. Using strict methods to avoid observer bias, Ki-67 antigen was found in a high proportion of nuclei in the suprabasal layers together with HPV antigens, in the absence of PCNA staining. This finding indicates that DNA synthesis related, Ki-67 antigen bearing structures can be raised in the human nucleus in the absence of induction of PCNA bearing structures, suggesting also structural independence between the antigen bearing molecules.