In vitro immunohistochemical localization of S-phase cells by a monoclonal antibody to bromodeoxyuridine

Thin viable slices of normal or pathological human tissues were incubated in vitro with bromodeoxyuridine (BrdU). Later, cryostatic sections and histological sections from the same samples embedded in paraffin were examined by an immunohistochemical method using a monoclonal antibody anti-bromodeoxyuridine (anti-BrdU-MAb): on both cryostatic and histological sections, the nuclei of the S-phase cells proved positive. The optimization of the technique depends on the concentration of bromodeoxyuridine in the culture medium (160 microM), the duration of incubation (not less than two h), the method of DNA denaturation (2N or 4N HCl) and the dilution of the anti-BrdU-MAb (1:50). In vitro, immunohistochemical application of the BrdU/anti-BrdU-MAb method permits a quantitative assessment of the proliferative activity of a tissue as well as the direct location of the actively replicating cells in histological sections.     

Microwave-aided technique to detect bromodeoxyuridine in S-phase cells using immunogold-silver staining and plastic-embedded sections

Summary A technique is described to detect bromodeoxyuridine (BrdU) incorporate by cells in S-phase, with a monoclonal antibody, using removable plastic embedding and immunogold-silver staining (IGSS). The incubation times were reduced and the immunological reactions enhanced by microwave irradiation.The embedding in methyl methacrylate enabled us to make thinner sections and it improved the quality of the preparations. The methyl methacrylate did not hinder the reaction of BrdU with the antibody because it could be removed prior to the IGSS procedure. The IGSS procedure appeared to be very sensitive, requiring lower concentrations of the antibodies than other methods. The use of microwave irradiation shortened the time needed to stain a section from 7 to less than 4 h. Furthermore, using microwave irradiation, the concentration of the antibodies needed could be reduced even further compared with the normal IGSS procedure.In sections of the mouse testis and small intestine only nuclei of cells known to be able to proliferate appeared BrdU positive. The non-specific background staining was found to be negligible. In testes of mice that received both³H-thymidine and BrdU more than 95% of the radioactively labelled cells also showed BrdU label and vice versa. This indicates that both methods are equally sensitive for detecting cells in S-phase.     

Evaluation of cell proliferation in rat tissues with BrdU, PCNA, Ki-67(MIB-5) immunohistochemistry and in situ hybridization for histone mRNA.

The standard method for assessment of cell proliferation in paraffin-embedded tissue sections is 5-bromodeoxyuridine (BrdU) immunohistochemistry (IHC). BrdU can be administered to laboratory animals via IP injections, is readily incorporated into nuclei during the DNA synthetic phase of the cell cycle, and is detected with an anti-BrdU antibody. This method has several disadvantages, and an accurate method for evaluation of proliferative activity that can substitute for BrdU IHC, when necessary, is of great interest to investigators. Alternative methods for detection of proliferating cells in tissue sections are proliferating cell nuclear antigen (PCNA) IHC, Ki-67 IHC, and in situ hybridization (ISH) for histone mRNA. To determine the optimal choice, we analyzed the correlation of anti-PCNA, anti-Ki-67(MIB-5), and histone mRNA labeling indices (LIs) with anti-BrdU LI in rat highly replicative (renewing) tissues. The correlation between anti-BrdU and histone mRNA LIs, as well as the correlation between anti-BrdU and anti-Ki-67 LIs, was statistically significant. There was no significant correlation between anti-BrdU and anti-PCNA LIs. These results suggest that both ISH for histone mRNA and IHC with MIB-5 are preferable techniques for assessment of cell proliferation in rat paraffin-embedded renewing tissues compared to PCNA IHC. They can substitute for BrdU IHC when necessary.     

A monoclonal antibody (Po66) directed against human lung squamous cell carcinoma immunolocalization of tumour xenografts in nude mice

Summary Po66, a mouse IgG1 monoclonal antibody, was produced by immunization against a patient lung squamous cell carcinoma. The tissue reactivity of the antibody was measured by a radioimmunological assay with enzymatically dissociated cells, by an immunofluorescence test on frozen tissue sections and by peroxidase-staining of paraffin sections. The antibody bound to lung squamous cell carcinoma, oesophagous carcinoma and, inconsistantly to lung adenocarcinoma but not to the other tumours tested. Some normal tissues also reacted positively, in particular bronchial serous glands, oesophagus epithelium and renal distal and collecting tubules. In normal and malignant tissues showing epithelioid differentiation, Po66 bound to the intermediate maturation area. The antigen immunoprecipitated by Po66 from lung squamous cell carcinoma appeared as a single band with a molecular weight 47000 to 50000 daltons. Purified monoclonal antibody Po66 and an unrelated IgG1 immunoglobulin were labelled with radioactive iodine and injected i. v. into nude mice bearing subcutaneous xenografts of human lung squamous cell carcinoma. The localization index in the tumour was 3.3. Antibody labelled with ¹³¹I allowed gamma-scintigraphic imaging of the xenografts which were clearly outlined by days 9 to 11.This work was supported by Association pour la Recherche sur le Cancer     

Cross-reactivity of birch anthers and leaves with birch pollen antigens and allergens. A fine-structural immunocytochemical study using the post-embedding protein-A-gold technique

Ultra-thin sections of vegetative tissues from birch (anthers and leaves) were labeled for pollen antigens and allergens using a commercial rabbit IgG antibody preparation directed against birch pollen antigens and allergens. Antibody binding sites were visualized using the protein A-gold technique. Specific labeling occurred in anther tissue (tape-tum cells, anther wall cells) as well as in the birch leaf (assimilation parenchyma). In both types of tissue, antigens and allergens were detected throughout the living protoplast (including cell organelles such as nuclei, mitochondria, and plastids). The cellulose cell walls were always free from anti-birch-pollen IgG-binding sites. The immunological controls (normal rabbit IgG) showed a low degree of nonspecific labeling. In plant tissues belonging to genera quite different from birch (tulip anther, rhododendron leaves), after incubation with the specific IgG weak labeling was observed. The immunological basis for these results is discussed.     

A novel immunohistochemical technique for demonstration of specific binding of human monoclonal antibodies to human cryostat tissue sections

We describe a novel immunohistochemical technique which permits the detection of specific binding of human monoclonal antibodies (MAb) to cryostat sections of human tissues. The technique overcomes the problem of background staining caused by the presence of endogenous immunoglobulins in tissue sections. This is achieved by the formation of a molecular complex of the primary antibody (a human MAb), horseradish peroxidase-conjugated goat anti-human immunoglobulin, and normal human serum. This complex is then incubated with cryostat sections of human tissue, and binding of the complex is demonstrated using diaminobenzidine/hydrogen peroxide. The method is suitable for immunohistochemical screening of small samples of tissue culture supernatant for the presence of human MAb of potential interest, and for determining the pattern of binding of such MAb to a wide range of normal and pathological human tissues.     

Simultaneous immunocytochemical visualization of bromodeoxyuridine and neural tissue antigens.

5'-Bromodeoxyuridine (BrdU) is a thymidine analogue which can be detected by monoclonal antibodies (MAb). We have developed a method for the simultaneous visualization of BrdU and a wide range of neural antigens in paraformaldehyde-fixed brain sections. Pregnant mice were injected intraperitoneally with a single pulse of BrdU. Young adult offspring were processed for immunocytochemistry following a double immunoperoxidase sequence. BrdU was detected using diaminobenzidine (DAB) intensified with nickel ammonium sulfate and neural antigen-containing elements were visualized with DAB alone. BrdU-positive nuclei and tissue antigen-immunoreactive cells were easily differentiated. Furthermore, double-labeled cells characterized by the presence of a black immunoreactive nucleus surrounded by a brown immunopositive cytoplasm were unambiguously recognized. Satisfactory results were obtained using either MAb or polyclonal antibodies against a variety of cell antigens, including neuropeptides, CA++ binding proteins, and cytoskeletal components of the glial cells. The method reported here permits analysis of the neurogenesis and proliferation of subsets of neurons and glial cells, identified by immunocytochemical markers.     

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.     

Novel and quantitative DNA dot-blotting method for assessment of in vivo proliferation

Immunohistochemical assessment of 5-bromo-2-deoxyuridine (BrdU) in tissue sections is a widely used method to evaluate cell proliferation in vivo. However, this method requires time-consuming preparation of paraffin sections and laborious counting of BrdU-labeled nuclei on multiple sections. Here, we report the development of a rapid and reliable method to quantitate BrdU incorporation in intestinal and liver tissues using a dot-blot method. In vivo models of colon or liver proliferation were used to analyze the usefulness and reliability of this new method. Mice were killed after BrdU injection, and genomic DNA was isolated from the tissues, denatured, and dot-blotted onto a nitrocellulose membrane. The incorporated BrdU was detected with a BrdU monoclonal antibody, and the signal intensity was densitometrically quantified. Results were compared with BrdU index determined by conventional immunohistochemistry on the same tissue samples. The patterns of colonic BrdU incorporation during fasting and refeeding, measured by the dot-blotting method and the immunohistochemical method, were similar. The BrdU incorporation in the regenerating liver after partial hepatectomy, evaluated by these two different methods, showed a strong correlation (R(2) = 0.91, P < 0.01). In addition, the inhibition of colon proliferation by the phosphoinositol 3-kinase inhibitor wortmannin was demonstrated by this dot-blotting method. In conclusion, the dot-blotting technique described in this report provides an accurate, more efficient, and possibly more reliable method for the assessment of in vivo proliferation compared with conventional immunohistochemical determination of BrdU-labeling index.     

Combined Bromodeoxyuridine Immunohistochemistry and Masson Trichrome Staining: Facilitated Detection of Cell Proliferation in Viable vs. Infarcted Myocardium

Cells in the S-phase of the cell cycle can be identified in tissue sections by im-munohistochemical localization of the thymidine analogue bromodeoxyuridine (BrdU). Generally, a single counterstain is used to visualize the underlying tissue; however, interpretation of morphologic detail is often difficult. We have utilized BrdU to localize proliferating cells in myocardium exposed to angiogenic mitogens. To facilitate identification of labelled nuclei in the context of infarcted vs. viable myocardium, BrdU immunohistochemistry was followed by a modified Mas-son trichrome stain. The time of exposure to the counterstains and the wash protocol were re-revised, permitting clear identification of the labelled brown nuclei against a background of red viable myocardium vs. blue infarct. The combined technique also provides color contrast suitable for computer-based image analysis.     

A monoclonal antibody identifies a 215 000-dalton nuclear envelope protein restricted to certain cell types

The monoclonal antibody, AGF2.3, was isolated from mice immunised with the human promyeloid cell line HL60. By immunofluorescence and immunoelectron microscopy the antibody was shown to bind to the nuclear envelope in uninduced HL60 cells. Immunofluorescent staining was reduced to very low levels in HL60 cells induced to mature to monocytes or neutrophils by addition of 12-0-tetradecanoylphorbol-13-acetate or dimethyl sulfoxide respectively. Blood neutrophils did not express the antigen. Weak immunofluorescent staining of cell nuclei was observed in peripheral blood lymphocytes and in sections of normal human kidney, tonsil and skin epithelium. The AGF2.3 antigen was strongly expressed on the nuclei of 21/21 haemopoietic cell lines and 21/25 permanent non-haemopoietic cell lines representing various cell types. In contrast, the antigen was not expressed by any of six primary (untransformed) cell cultures. These included fibroblasts, endothelial cells and keratinocytes. The antigen was expressed in the Q10 SV-40 transformed cell line derived from a non-expressing primary fibroblast culture. AGF2.3 antibody precipitated a protein with an apparent subunit molecular weight of approximately 215 kDa from Triton X-100 extracts of HL60 and HeLa cells labelled with 35S-methionine. This protein was not detectable in extracts of primary skin fibroblasts prepared in parallel. We conclude that AGF2.3 antibody recognises a previously undescribed protein associated with the nuclear envelope which is expressed at high levels in most transformed cell lines but which is weakly expressed or absent in normal tissues and primary cell cultures.     

Cyclin/PCNA immunostaining as an alternative to tritiated thymidine pulse labelling for marking S phase cells in paraffin sections from animal and human tissues

Paraffin sections from animal or human tissues fixed in different fixatives were submitted to immunostaining with the mouse monoclonal antibody 19A2, developed by Ogata et al. (1987a) against cyclin/PCNA. Detection of the bound antibody was performed by the indirect method with biotinylated sheep antibody and streptavidin-biotin-peroxidase complexes. No, or faint, nuclear staining was seen in material fixed in ethanol, Bouin, Bouin-Hollande, Carnoy or formaldehyde, whereas readily detectable immunocytochemical reaction was constantly observed over nuclei of methanol-fixed tissues. Hydrolysis with 2 N HCl prior to immunocytochemistry (as currently performed to render incorporated BrdU accessible to antibodies) somewhat improved the results with Bouin or Carnoy and markedly augmented the intensity of the peroxidase reactions in formaldehyde and in methanol-fixed tissues. The distribution of the positive nuclei in the two latter cases coincided with the proliferative compartment. On the other hand, double labelling with [3H]-thymidine and with the cyclin/PCNA antibody revealed that in methanol-fixed tissues the cyclin/PCNA labelling index did not differ by more than 6% from the [3H]-thymidine index. Besides the two labels overlapped in a proportion of labelled cells that was in reasonable agreement with expectation considering cells flow in and out of S phase since the time of [3H]-thymidine injection. This indicates that both labels recognize the same cells in this material. In contrast, in formaldehyde-fixed tissues, the cyclin/PCNA labelling index markedly exceeded the [3H]-thymidine labelling index. From this it is concluded that cyclin/PCNA immunostaining can be used: (1) In formaldehyde-fixed tissues (including existing material stored as paraffin blocks): for defining and mapping the proliferative (or germinative) compartment. (2) In methanol-fixed tissues as a substitute to the [3H]-thymidine autoradiographic labelling index. From this, a method is proposed (derived from classical 'double-labelling' technique) for measuring S phase duration in tissues fixed at a known interval time after a single labelling with [3H]-thymidine (or BrdU) and submitted to cyclin/PCNA immunocytochemical detection and to autoradiography (or to BrdU immunostaining).     

Trichinella spiralis: secreted antigen of the infective L1 larva localizes to the cytoplasm and nucleoplasm of infected host cells

Antibodies were elicited against a purified antigen with an apparent molecular weight of 43K. This antibody preparation also detected a second antigen consisting of a group of closely related components of 45-50K. These antigens are stage specific for the infective first stage larva of Trichinella spiralis and are among the repertoire of secreted antigens originating from the stichosome. Antibody raised against the 43K antigen reacted with the stichosome and cuticle of the mature larva and the cytoplasm and nucleoplasm, but not nucleolus, of all nuclei of infected host cells (Nurse cells) in sections of infected tissues. Studies on sections of synchronously infected muscle tissue revealed that antigen was present only within the worm on Day 7 of the infection. On Day 9 after infection, the stichosome and cuticular surface of the larva and the cytoplasm and nucleoplasm of each nucleus of the Nurse cell reacted with antibody. Nurse cell cytoplasmic and nuclear reactivity increased in intensity until Day 18 after infection. These results suggest that stichocyte-specific antigens are synthesized during the early phase of infection in the muscle, and that as the Nurse-parasite complex develops, some of the antigen is secreted into the milieu of the Nurse cell. The presence of antigen in the cytoplasm and nucleoplasm of the infected host cell is discussed in relation to Nurse cell formation and maintenance.     

Identification of 5-Bromo-2’-Deoxyuridine-Labeled Cells during Mouse Spermatogenesis by Heat-Induced Antigen Retrieval in Lectin Staining and Immunohistochemistry

DNA replication occurs during S-phase in spermatogonia and preleptotene spermatocytes during spermatogenesis. 5-Bromo-2’-deoxyuridine (BrdU) is incorporated into synthesized DNA and is detectable in the nucleus by immunohistochemistry (IHC). To identify BrdU-labeled spermatogenic cells, the spermatogenic stages must be determined by visualizing acrosomes and detecting cell type-specific marker molecules in the seminiferous tubules. However, the antibody reaction with BrdU routinely requires denaturation of the DNA, which is achieved by pretreating tissue sections with hydrochloric acid; however, this commonly interferes with further histochemical approaches. Therefore, we examined optimal methods for pretreating paraffin sections of the mouse testis to detect incorporated BrdU by an antibody and, at the same time, visualize acrosomes with peanut agglutinin (PNA) or detect several marker molecules with antibodies. We found that the use of heat-induced antigen retrieval (HIAR), which consisted of heating at 95C in 20 mM Tris-HCl buffer (pH 9.0) for 15 min, was superior to the use of 2 N hydrochloric acid for 90 min at room temperature in terms of the quality of subsequent PNA-lectin histochemistry with double IHC for BrdU and an appropriate stage marker protein. With this method, we identified BrdU-labeled spermatogenic cells during mouse spermatogenesis as A1 spermatogonia through to preleptotene spermatocytes.     

抗胶质瘤细胞单克隆抗体SZ-38及其识别抗原的生化特征

本文以人脑胶质瘤细胞系SHG-44为抗原,利用杂交瘤技术建立了一株恒定地分泌抗胶质瘤细胞单克隆抗体(McAb)的杂交瘤细胞株SZ-38。McAb SZ-38与9/10胶质瘤细胞系发生强结合反应。而与淋巴细胞、ABO型红细胞等所有正常血液细胞及绝大多数被检测肿瘤细胞系无反应。经免疫转移电泳及免疫沉淀法鉴定,该McAb识别抗原为胶质瘤细胞膜上Mw47,000糖蛋白。应用SPA-Sepharose 4B提纯MeAb SZ-38,再把纯化抗体交联于Sepharose 4B,以McAb亲和层析法提取SZ-38抗原,经SDS-PAGE证实其有较高的纯度。     

Production of monoclonal antibodies to group A erythrocytes, HLA and other human cell surface antigens-new tools for genetic analysis

Antibody-secreting hybrid cells have been derived from a fusion between mouse myeloma cells and spleen cells from a mouse immunized with membrane from human tonsil lymphocyte preparations. Hybrids secreting antibodies to cell surface antigens were detected by assaying culture supernatants for antibody binding to human tonsil cells. Six different antibodies (called W6/1, /28, /32, /34, /45 and /46 were analyzed. These were either against antigens of wide tissue distribution (W6/32, /34, and /46) or mainly on erythrocytes (W6/1 and W6/28). One of the anti-erythrocyte antibodies (W6/1) detected a polymorphic antigen, since blood group A1 and A2 erythrocytes were labeled while B and O were not. Antibodies W6/34, /45 and /46 were all against antigens which were mapped to the short arm of chromosome 11 by segregation analysis of mouse-human hybrids. Immunoprecipitation studies suggest that W6/45 antigen may be a protein of 16,000 dalton, apparent molecular weight, while W6/34 and /46 antigens could not be detected by this technique. Antibody W6/32 is against a determinant common to most, if not all, of the 43,000 dalton molecular weight chains of HLA-A, B and C antigens. This was established by somatic cell genetic techniques and by immunoprecipitation analysis. Tonsil leucocytes bound 370,000 W6/32 antibody molecules per cell at saturation. The hybrid myelomas W6/32 and W6/34 have been cloned, and both secrete an IgG2 antibody. W6/32 cells were grown in mice, and the serum of the tumor-bearing animals contained greater than 10 mg/ml of monoclonal antibody. The experiments established the usefulness of the bybrid myeloma technique in preparing monospecific antibodies against human cell surface antigens. In particular, this study highlights the possibilities not only of obtaining reagents for somatic cell genetics, but also of obtaining mouse antibodies detecting human antigenic polymorphisms.     

Immunogold localization of the type II regulatory subunit of cyclic AMP-dependent protein kinase. Monoclonal antibody characterization and RII distribution in rat parotid cells

A mouse monoclonal antibody of the IgM class, MAb BB1, specific for the type II regulatory subunit (RII) of cyclic AMP-dependent protein kinase (cAPK), was produced using a purified subcellular protein fraction from rat parotid gland as the original antigen. The antibody immunoprecipitated radioactivity labeled RII from bovine heart cAPK, and from rat and human parotid saliva. Western blot analysis revealed specific binding of the antibody to proteins of 52 and 54 KD in extracts of rat parotid tissue, parotid saliva, and bovine heart cAPK. Immunogold labeling of thin sections of rat parotid gland revealed specific labeling of acinar cell nuclei (especially the heterochromatin), cytoplasm (particularly in areas containing granular endoplasmic reticulum), and the content of secretory granules. Labeling was greatly reduced (approximately 84%) when the antibody was pre-absorbed with an excess of bovine heart cAPK. In duct cells the cytoplasm and nuclei were also labeled, but few gold particles were present over secretory granules. These results provide additional evidence for the presence of nuclear cAPK in rat parotid cells, and confirm previous observations on the presence of cAPK regulatory subunits in acinar secretory granules and saliva. The hybridoma reagent will be used for studies of stimulus responses in the parotid and for immunocytochemical analyses of RII distribution in other secretory tissues.     

A monoclonal antibody that defines basal cells of stratified epithelia in various human and rabbit tissues

Monoclonal antibodies were produced against monkey lung lavage fluid by using a mouse hybridoma technique. One monoclonal antibody, KP8D4, specifically reacted with basal cells in human bronchial epithelia by immunohistological staining of acetone-fixed, frozen sections and it recognized a protein with an apparent molecular weight of 84000, as determined by gel immunoblotting. The distribution of this protein was immunohistochemically examined in various human tissues (lung, tongue, esophagus, stomach, intestine, liver, pancreas, salivary gland, spleen, thymus, heart, aorta, vena cava, prostate, breast, kidney, urinary bladder, thyroid, brain, skin, striated muscle) and various tissues of rats, rabbits and pigs. The results showed a specific affinity of KP8D4 to basal cells of stratified epithelia in the various human and rabbit tissues. This antibody may be a useful tool for studies of normal development and diverse pathological disorders.     

Cyclin/PCNA immunostaining as an alternative to tritiated thymidine pulse labelling for marking S phase cells in paraffin sections from animal and human tissues

Abstract Paraffin sections from animal or human tissues fixed in different fixatives were submitted to immunostaining with the mouse monoclonal antibody 19A2, developed by Ogata et al. (1987a) against cyclin/PCNA. Detection of the bound antibody was performed by the indirect method with biotinylated sheep antibody and streptavidin-biotin-peroxidase complexes. No, or faint, nuclear staining was seen in material fixed in ethanol, Bouin, Bouin-Hollande, Carnoy or formaldehyde, whereas readily detectable immunocytochemical reaction was constantly observed over nuclei of methanol-fixed tissues. Hydrolysis with 2 N HCl prior to immunocytochemistry (as currently performed to render incorporated BrdU accessible to antibodies) somewhat improved the results with Bouin or Carnoy and markedly augmented the intensity of the peroxidase reactions in formaldehyde and in methanol-fixed tissues. The distribution of the positive nuclei in the two latter cases coincided with the proliferative compartment. On the other hand, double labelling with [³H]-thymidine and with the cyclin/PCNA antibody revealed that in methanol-fixed tissues the cyclin/PCNA labelling index did not differ by more than 6% from the [³H]-thymidine index. Besides the two labels overlapped in a proportion of labelled cells that was in reasonable agreement with expectation considering cells flow in and out of S phase since the time of [³H]-thymidine injection. This indicates that both labels recognize the same cells in this material. In contrast, in formaldehyde-fixed tissues, the cyclin/PCNA labelling index markedly exceeded the [³H]-thymidine labelling index. From this it is concluded that cyclin/PCNA immunostaining can be used:

• 1 In formaldehyde-fixed tissues (including existing material stored as paraffin blocks): for defining and mapping the proliferative (or germinative) compartment.
• 2 In methanol-fixed tissues as a substitute to the [³H]-thymidine autoradiographic labelling index.

From this, a method is proposed (derived from classical ‘double-labelling’technique) for measuring S phase duration in tissues fixed at a known interval time after a single labelling with [³H]-thymidine (or BrdU) and submitted to cyclin/PCNA immunocytochemical detection and to autoradiography (or to BrdU immunostaining).