p53 expression in Reed-Sternberg cells of Hodgkin's disease

Expression of bcl-2 and p53 proteins in nasopharyngeal carcinoma. Absence of correlation with the presence of EBV encoded EBER1-2 transcripts and latent membrane protein-1

Aims-To investigate the immunohistochemical expression of bcl-2 and p53 proteins in nasopharyngeal carcinomas in relation to the expression of the Epstein-Barr virus (EBV) encoded EBER messenger RNAs (mRNAs) and latent membrane protein-1 (LMP-1).Methods-Formalin fixed, paraffin wax embedded tissue from 44 nasopharyngeal carcinomas (NPCs) was stained by immunohistochemistry for p53, bcl-2 and LMP-1 proteins and by RNA in situ hybridisation for EBER mRNAs.Results-The tumours were divided histologically into 13 cases of keratinising squamous cell NPC (KNPC), 15 cases of non-keratinising squamous cell NPC (NKNPC) and 16 cases of undifferentiated NPC (UNPC). Bcl-2 expression was observed in five of 15 NKNPC cases and in six of 16 UNPC cases; p53 expression was observed in one of 13 KNPC, two of 15 NKNPC and four of 16 UNPC cases. EBER 1-2 transcripts were detected in five of 15 NKNPC and nine of 16 UNPC cases, while LMP-1 expression was observed in one of 16 UNPC cases. All 13 KNPCs were EBV and bcl-2 negative. No correlation was found between the presence of EBER 1-2 transcripts and the detection of bcl-2 or p53 proteins, or both, in NPC cells.Conclusions-The expression of bcl-2 and p53 proteins may be associated with the level of the tumour cell differentiation in NPC. In addition, in view of the important role of the bcl-2 protein in the inhibition of apoptosis, the expression of bcl-2 protein may contribute to tumour cell survival in a proportion of NPCs. Furthermore, in the light of previous findings that the p53 gene in most UNPCs is in the wild-type configuration, mechanisms other than mutation may be responsible for stabilisation of the p53 protein in UNPCs.

Expression and prognostic significance of Cox-2 and p-53 in Hodgkin lymphomas: a retrospective study

BACKGROUND

Cyclooxygenase (cox) is the rate-limiting enzyme, which catalyzes the conversion of arachidonic acid into prostaglandins and contributes to the inflammatory process. Cyclooxygenase-2 (cox-2), which is one of the two isoforms, plays a role in tumor progression and carcinogenesis. p53 contributes to apoptosis, DNA renewal and cell cycle. Studies concerning the relationship of cox-2 and p53 expressions and carcinogenesis are available, but the association between cox-2 and p53 in Hodgkin lymphoma (HL) is not exactly known.In our study, we examined the association of cox-2 and p53 expression, with age, stage, histopathological subtype, and survival in HL. We also examined correlation between cox-2 and p53 expression.

METHODS

Cox-2 and p53 expressions in Hodgkin-Reed Sternberg cells (HRS) were examined in 54 patients with HL depending on cox-2 expression, stained cases were classified as positive, and unstained cases as negative. Nuclear staining of HRS cells with p53 was evaluated as positive. The classifications of positivity were as follows: negative if<10%; (1+) if 10-25%; (2+) if 25-50%; (3+) if 50-75%, (4+) if >75%.

RESULTS

Cox-2 and p53 expressions were found in 49 (80%) and 29 (46%) patients, respectively. There were differences between histological subtypes according to cox-2 expression (p = 0.012). Mixed cellular (MC) and nodular sclerosing (NS) subtypes were seen most of the patients and cox-2 expression was evaluated mostly in the mixed cellular subtype.There were no statistically significant relationships between p53 and the histopathological subtypes; or between p53, cox-2 and the factors including stage, age and survival; or between p53 and cox-2 expression (p > 0.05).

CONCLUSION

Considering the significant relationship between the cox-2 expression and the subtypes of HL, cox-2 expression is higher in MC and NS subtypes. However the difference between these two subtypes was not significant. This submission must be advocated by studies with large series.

Expression of cyclooxygenase-2 in Hodgkin's lymphoma: its role in cell proliferation and angiogenesis

Although many studies have revealed the association between cyclooxygenase-2 (COX-2) and carcinogenesis, the association between COX-2 and Hodgkin's lymphoma (HL) remains unknown. We examined the immunohistochemical expression of COX-2, p53, bcl-2, and Ki-67 in 33 patients with HL, and counted microvessels stained with CD34. Hodgkin and Reed - Sternberg (HRS) cells with COX-2 expression were scored as 0 = no staining; 1 = <25% of cells staining; 2 = 25-49%; 3 = 50-75%; and 4 = > or =75%. COX-2 expression was observed in 15 cases of classical HL. Nevertheless, neither accumulation of p53 nor bcl-2 expression was associated with COX-2 expression. The percentage of Ki-67 positive-HRS cells and microvessel density in COX-2 score groups 2-4 were significantly higher than those in score group 0, respectively. We show that COX-2 expression is associated with cell proliferation and angiogenesis in HL. These findings suggest that COX-2 may be a target for therapy in HL.

A notable phenomenon recapitulated. A fusion product of a murine lymphoma cell and a leukemia virus-neutralizing antibody-producer host plasma cell formed spontaneously and secreting the specific antibody continuously

In the mid-1960s the #620 cell passage line of a murine lymphoma-leukemia was developed at the Section of Clinical Tumor Virology and Immunology, Department of Medicine, The University of Texas M.D. Anderson Hospital in Houston, TX. The diploid lymphoma cells released a retrovirus and were antigenic in young adult Swiss (YAS) mice. Small lymphoma cell inocula were rejected with immunity acquired against large inocula of lymphoma cells. Tissue sections revealed the "starry sky" configurations. In one of the tissue cultures set up from lymphoma #620, a cell line consisting of large round poly- or tetraploid cells arose and was referred to as lymphoma cell line #818. The #818 cells grew in suspension cultures and in the form of large, lethal ascitic tumors in YAS mice. Diploid #620 lymphoma cells stained for retroviral antigens; #818 cells stained both for retroviral antigens and immunoglobulins. Fluids withdrawn from #818 cultures neutralized the leukemia virus in spleen focus assays. Immunoglobulin precipitated from #818 suspension culture fluids strongly and specifically neutralized the leukemia virus. The growth of #620 or #818 cells in YAS mice treated with rabbit anti-lymphoma cell immune sera was strongly inhibited but culture fluids of #818 cells showed weak and insignificant inhibition against leukemia-lymphoma #620 (in one experiment, unpublished). In two experiments #620 lymphoma cells were co-inoculated with immune spleen cells into the peritoneal cavities of YAS mice. The immune spleen cells derived from mice that rejected #620 cell inocula or were actively immunized with a photodynamically inactivated mouse leukemia virus vaccine. In the peritoneal cavities of mice co-inoculated with #620 cells and immune spleen cells, clones of large round cells emerged with tetra- or polyploid chromosomal modes. These cells stained for leukemia viral antigens and immunoglobulins. When passaged in YAS mice these cells induced lethal ascites tumors. It was concluded as early as in 1968-69 that an immune plasma cell can fuse with a lymphoma cell, if the lymphoma cell expresses retroviral antigens against which the plasma cell is producing a specific antibody. Some human lymphoma-leukemia cells express retroviral antigens and/or budding retroviral particles, whether due to the acquisition of new env sequences by incomplete resident endogenous retroviral genomes or due to the entry of exogenous retroviruses into lymphopoietic stem cells. In the Discussion illustrations are provided for the human cell line #778 established from a patient with "lymphosarcoma cell leukemia" in 1966. The malignant cells released unidentified retrovirus-like particles and fused with one another and with reactive lymphoid cells of the host. It should be investigated further if human lymphoma-leukemia cells could fuse with an immune plasma cell of the host and thus alter the clinical course of the disease.

Cell cycle aberrations in the pathogenesis of squamous cell carcinoma of the uterine cervix

Cancer cells are characterized by limitless proliferative autonomy and immunity to inhibitory and apoptotic signals, thus ensuring growth and metastasis [1]. Epidemiological studies have long implicated human papillomavirus (HPV) as a pathogenic agent in cervical cancer. Progress in cancer research now provides an understanding of how these characteristics are achieved by the interaction of HPV proteins with the cell cycle machinery. Expression of oncoproteins E7 and E6 induces immortalization of cells through their inhibitory effects on tumor suppressor proteins pRb and p53, respectively. Undermining of pRb's growth-inhibitory role with release of E2F transcription factors renders the cells independent of mitogenic stimuli. The abundance of growth transcription factors grants limitless proliferative potential by allowing expression of products such as cyclins A, E, and B, dihydrofolate reductase, and DNA polymerase which fuel the various stages of the cell cycle. There is subsequent disruption of both the G1-S and G2-M cell cycle checkpoints. Overexpression of cyclin E results in chromosomal instability and possible unmasking of genetic mutations, allowing disease progression. Cyclin A grants anchorage-independent growth, facilitating tissue invasion and tumor spread. Apoptotic and growth-inhibitory mechanisms are also evaded. p53 is degraded by E6 and its own downstream protein mdm2. Its other downstream protein, p21 is rendered ineffective against cyclin-cyclin-dependent kinase units by E7, as is p27. The understanding of the molecular pathology of disease will provide us with the ability to prognosticate and treat patients more effectively.

Lymphocyte predominance Hodgkin disease is characterized by recurrent genomic imbalances

Single-cell polymerase chain reaction (PCR) has been used as a tool to demonstrate clonality and B-cell origin of Reed-Sternberg (RS) cells in Hodgkin disease (HD). An analogous approach was used to investigate genomic imbalances in a (cyto)genetically poorly characterized subentity: lymphocyte predominance Hodgkin disease (LPHD). Nineteen cases of LPHD were selected for a comparative genomic hybridization (CGH) study. CGH was performed with degenerate oligonucleotide primed-PCR (DOP-PCR)-amplified DNA from 4-5 microdissected CD20+ malignant cells. All analyzed cases revealed a high number of genomic imbalances (average 10.8 per case), involving all chromosomes but the excluded 19, 22, and Y, indicating a high complexity of LPHD. The majority of detected aberrations were recurrent. Gain of 1, 2q, 3, 4q, 5q, 6, 8q, 11q, 12q, and X, and loss of chromosome 17 were identified in 36.8% to 68.4% of the analyzed cases. Some of them have also been found in non-Hodgkin lymphoma (NHL), and possibly represent secondary changes associated with disease progression. Gain of 2q, 4q, 5q, 6, 11q, however, are much more rarely observed in NHL and could be more specifically associated with LPHD. Particularly interesting is a frequent overrepresentation of chromosome arm 6q, a region usually deleted in NHL. Rearrangement of the BCL6 gene (3q27) demonstrated by cytogenetics and fluorescence in situ hybridization in 2 cases in this study suggests its contribution in pathogenesis of LPHD. In conclusion, the data show a consistent occurrence of genomic alterations in LPHD and highlight genomic regions that might be relevant for development and/or progression of this lymphoma entity.

MDM2 gene amplification and lack of p53 point mutations in Hodgkin and Reed-Sternberg cells: results from single-cell polymerase chain reaction and molecular cytogenetic studies

Hodgkin's disease (HD) is the most common haematological malignancy after chronic lymphocytic leukaemia, but very little is known about its pathogenesis or the genetic events that contribute to the malignant phenotype of the tumour cells. p53 is assumed to play an important role in the pathogenesis of HD, based on the observation that p53 protein is frequently accumulated in Hodgkin and Reed-Sternberg (H & RS) cells. We investigated single H & RS cells from five different HD patients for point mutations at the genomic level using multiplex polymerase chain reaction amplification and subsequent sequencing. No point mutations were detected in 50 single H & RS cells analysed. Hence, accumulation of p53 protein cannot be explained by mutations within the gene. A genome-wide screening for genomic imbalances using comparative genomic hybridization revealed gain on chromosome 12q14, i.e. the mapping position of the MDM2 gene in several HD cases. Therefore, we assessed the copy number of the MDM2 gene using fluorescence in situ hybridization. In four out of six HD cases analysed, the copy number of the MDM2 gene was found to be increased. As gene amplification is frequently associated with protein overexpression, the observed accumulation of p53 in the nuclei of H & RS cells could be as a result of elevated MDM2 protein levels resulting in stabilization of p53 protein.

Apoptosis-related genes and proteins in Hodgkin's disease

During recent years it has become increasingly evident that L&H cells in nodular lymphocytic predominance (LP) Hodgkin's disease (HD) and Hodgkin and Reed-Sternberg (H-RS) cells in approximately half the cases of classical HD originate from B-lymphocytes, and that H-RS cells in most of the remaining cases of classical HD express a null phenotype. The pathogenesis of HD is unknown. An association with Epstein-Barr virus (EBV) has been suggested and there are also indications that genes involved in programmed cell death (apoptosis) may be implicated. In this study, the expression of four apoptosis-related proteins (bcl-2, bcl-x, bax and p53) in 53 cases of HD was examined and the data were correlated with the genotype, the EBV status and the phenotype (B, T or null) of the neoplastic cells. The H-RS cells expressed a B-cell phenotype in 3/3 cases of nodular LP and in 19/ 50 (38%) cases of classical HD. The remaining cases showed a null-cell phenotype in 29/50 (58%) and a T-cell phenotype in 2/50 (4%). EBV was more often positive in B (14/19, 74%) than in null (7/29, 24%) type HD. The H-RS cells were bcl-2-positive in 19/53 (36%), bcl-x-positive in 17/53 (32%), bax-positive in 1/53, and p53-positive in 41/53 (77%) cases. No relationship was found between bcl-2 expression and EBV status, or between bcl-2 and bcl-x expression. A t(14;18) translocation was seen in 2 of 34 cases. P53 point mutations were not detected. Our findings indicate that nodular LP and classical HD originate from B-cells in a high proportion of cases. They also suggest a role for bcl-2, bcl-x and p53 in tumorigenesis. The pathogenesis is not known at this stage.

Instability of dinucleotide repeats in Hodgkin's disease

Tumorigenesis has been shown to proceed through a series of genetic alterations involving protooncogenes and tumor suppressor genes. However, the investigation of genomic instability of microsatellites has disclosed a new mechanism for human carcinogenesis, which is involved not only in hereditary nonpolyposis colon cancer (HNPCC) but in a number of other malignancies as well. To determine whether microsatellite instability is involved in Hodgkin's disease, we screened 16 such tumors using 7 microsatellite marker loci on 6 chromosome arms 4, 5, 9p, 9q, 11, 14, and 17. Using the polymerase chain reaction method, DNA samples from the tumors and from normal peripheral blood leukocytes from each patient were compared for the allelic pattern produced at each locus. Five cases of genomic instability were identified, suggesting that this mechanism is relevant to the pathogenesis of HD.

The mummified Hodgkin cell: cell death in Hodgkin's disease

This study attempts to define more clearly the morphology and ultrastructure of mummified Hodgkin cells, to determine their incidence in the different histological subtypes of Hodgkin's disease (HD), and to correlate these data with the expression of p53, bcl-2, mdm2, and p21/WAF1. Forty-five cases of primary HD were examined at light and electron microscopic level. DNA strand breaks were detected by the in situ end-labelling (ISEL) and the TdT-mediated dUTP-digoxigenin nick end-labelling (TUNEL) technique. Mummified Hodgkin cells display morphological features that differ from those of classical apoptosis. In contrast to apoptotic cells, mummified Hodgkin and Reed-Sternberg (HRS) cells do not react in the ISEL or TUNEL procedures and maintain the expression of antigens such as CD30 and CD15. The morphology of mummified tissue cells could be simulated by CD95-mediated induction of apoptosis in the Hodgkin cell line HDLM2 if internucleosomal DNA fragmentation was inhibited by zinc ions. The highest incidence of mummified cells was found in the nodular sclerosis and mixed cellularity subtypes, whereas the lowest frequency was observed in nodular paragranuloma. The frequency was independent of p53, bcl-2, p21, and mdm2 expression. p21 and mdm2 immunoreactivity of HRS cells was correlated with p53 status. HRS cells in nodular paragranuloma were virtually negative for p21/WAF1 or bcl-2. Classical apoptotic cells reacting in the TUNEL and ISEL procedures are found in all subtypes of HD and are derived from the non-neoplastic cellular background. In conclusion, mummified Hodgkin cells display features of apoptosis lacking the internucleosomal DNA fragmentation. The pattern of the p53-transactivated genes mdm2 and p21/WAF1 suggests that inactivating mutations of p53 are rare in HD.

A study of p53 protein, proliferating cell nuclear antigen, and p21 in Hodgkin's disease at presentation and relapse

About one fourth of patients with Hodgkin's disease relapse after therapy. The mechanisms that lead to resistance to treatment in these patients are poorly understood. The authors describe the differential protein expression of p53, proliferating cell nuclear antigen (PCNA), and p21 at initial presentation and relapse, and discuss their role in disease progression and resistance to therapy. Thirty-four patients with Hodgkin's disease who had relapsed after standard chemotherapy and radiotherapy regimens were assessed for the expression of p53 protein, PCNA, and p21 protein (waf/cip 1). In 14 of these cases, sequential biopsies performed both at presentation and at relapse were available for the study. Seventy-five percent of the cases were positive for the p53 protein. Tumors at relapse had higher p53 and PCNA scores than those at initial presentation. In the paired samples, a significant increase was noted in the number of p53 and PCNA-positive cells and in the intensity of staining with p53 antibody. Six of seven paired samples tested for p21 showed an increased p21 expression at relapse. These results suggest that, at relapse, Reed-Sternberg (RS) cells and their variants positive for p53, PCNA, and p21 are increased in number and individually have an increased expression of p53, PCNA, and p21 proteins. These findings suggest that therapy failure and relapse may, at least in part, be associated with altered p53, p21, and PCNA pathways. HUM PATHOL 28:549-555. This work was carried out during an exchange fellowship program at the National Cancer Institute, Bethesda. There are no restrictions on its use

Mitotic activity and nuclear DNA damage of large cells in Hodgkin's disease: comparison with the expression of p53 and bcl-2 proteins and the presence of Epstein-Barr virus

The roles of the bcl-2 and p53 proteins in Hodgkin's disease (HD) are poorly understood. We therefore compared their detected presence in Hodgkin and Reed-Sternberg/large atypical (H-RS/LA) cells immunohistochemically with the percentages of these cells double-labeled for CD30 and DNA strand breaks (DNA fragmentation index, DFI); mitotic indices (MI); and the EBV infection status. We found a highly significant inverse correlation between the fractions per case of H-RS/LA cells expressing bcl-2/p53 proteins and the DFI of CD30+ elements. No marked effect of these two oncoproteins on MI was noticed, although these parameters and DFI of CD30+ cells were linearly related. EBV infection of H-RS/LA cells exerted only a limited effect on the parameters tested. The results of this study suggest that overexpressed bcl-2 and, to some extent, p53 proteins in H-RS/LA cells of HD primarily counteract deletion of these cells.

Pathophysiology of Hodgkin's disease: functional and molecular aspects

Hodgkin's disease (HD) is characterized by the presence of the typical, clonal malignant Hodgkin and Reed-Sternberg (H-RS) cells in a hyperplastic background of normal reactive lymphocytes, plasma cells, histiocytes, neutrophils, eosinophils and stromal cells. The neoplastic nature of HD is based on aggressive clinical progression, presence of the proliferating and atypical H-RS cells, aneuploidy and cellular clonality. Immunophenotypical studies have demonstrated frequent expression of lymphoid "activation markers' including CD15, CD25, CD30, CD40, CD54, CD70, CD71, CD80, CD86 and MHC class II and less frequent expression of T- or B-cell-associated antigens by the neoplastic H-RS cells. The clonality of H-RS cells is demonstrated by clonal EBV integration, clonal cytogenetic abnormalities including p53 mutations and clonal immunoglobulin rearrangements in some HD cases. There is involvement of diverse molecules with oncogenic potential, including presence of viruses (Epstein-Barr virus and human herpes virus-6) and/or oncogenes/tumour suppressor genes (bcl-2/bcl-x, p53/MDM-2, c-myc, c-fms, N-ras, lck). The histopathological presentation and characteristic clinical features of HD correlate with an unbalanced production of multiple cytokines and define HD as a tumour of cytokine-producing cells. The proportion of malignant H-RS cells to reactive cellular components and fibrosis is dependent on the production of particular cytokines and allows subtyping of HD cases. The combined use of immunohistochemical, biochemical and molecular techniques has thus allowed recognition that HD represents more than one clinico-pathological entity with different types of H-RS cells. The defined mechanism for the biological nature, origin and oncogenesis of H-RS cells remains not fully understood, but is susceptible to further analysis using modern technology.

Detection of p53 in Hodgkin's disease using the monoclonal antibody PAb248

The recent demonstration that the murine anti-p53 monoclonal antibody PAb248 can identify human p53 in a variety of normal tissues proves that immunohistochemical detection does not necessarily indicate the presence of mutations. PAb248 can detect p53 protein in a cytoplasmic-perinuclear localization, not previously described. The present study presents the expression of this antibody in a series of 34 cases of Hodgkin's disease, comparing it with the antibodies CM1, PAb1801, and PAb240. In all cases, PAb248 showed uniform cytoplasmic-perinuclear staining in small and medium-sized lymphocytes, while it was constantly negative in Hodgkin, Reed-Sternberg (R-S/H) cells, and variants. This pattern of staining was the opposite to that observed with the antibodies CM1, PAb1801, and PAb240, where the staining was nuclear and restricted to the R-S/H cells, with the small lymphocytes being negative. p53 can be found in different conformations and localizations, with the cytoplasmic-perinuclear localization mainly, although not exclusively, being found in normal and reactive tissues and the nuclear localization being mainly expressed by neoplastic cells. These results give further support to the theory that the R-S/H cells are the neoplastic population in Hodgkin's disease, while the surrounding lymphocytes are reactive.

p53 mutation and expression in lymphoma

Mutation and abnormal expression of p53 was studied in 38 lymphomas [five Hodgkin's disease and 33 non-Hodgkin's lymphoma (NHL)]. CM1 polyclonal antibody was used to detect overexpression of p53. Three missense mutations were characterised in three cases of NHL after screening exons 5-8 of p53 of all the tumours with single-strand conformation polymorphism (SSCP) analysis. Only two out of three tumours with a missense mutation showed abnormal expression of p53 as measured by CM1. Conversely, seven out of nine tumours with positive CM1 staining had no point mutation demonstrated. Overexpression of p53 in the cases of NHL occurred in three out of twenty four low-grade tumours and five out of nine high-grade tumours (Kiel classification). The results suggest that abnormalities of p53 are commoner in high-grade than low-grade NHL, and that positive immunocytochemistry cannot be used to determine which tumours have mutations of p53.

Biopathologic features of Hodgkin's disease

The neoplastic nature of Hodgkin's disease (HD) is suggested by several lines of evidence, including aggressive clinical course, presence of proliferating atypical cells morphologically recognized as Hodgkin's and Reed-Sternberg cells (H-RS), aneuploidy, and, in the minority of cases, clonality. Nevertheless, the etiopathogenesis of HD still remains elusive, and probably diverse. This uncertainty is partly due to the peculiar histology of HD lesions, characterised by the paucity of the putative neoplastic cell component, i.e. H-RS cells, admixed to a variety of reactive cells which prevent an exhaustive investigation at molecular level. Nevertheless, the possible involvement of different molecules with oncogenic potential has been recently suggested on the basis of immunohistological and molecular biology studies. These include oncogenes such as bcl-2 and MDM2 and anti-oncogenes such as p53. In addition, a large amount of data has accumulated on the possible role of EBV infection in HD. The colonization of lymphoid tissues by immortalized H-RS cells can account for the derangement of cytokine networks leading to microenvironmental and systemic abnormalities. In addition, a variety of soluble receptors (sIL-2R, sCD30, sTNF-R), and adhesion molecules (sICAM-1) are abnormally produced at sites of disease involvement. Some of these molecules still retain the ability to bind their ligands and can potentially contribute to the derangement of immune mechanisms observed in HD. Many of these soluble molecules can also be found in the patient's sera providing new potential prognostic and follow-up parameters in HD patients. The comparative analysis of the same molecules within the tissue, using immunohistochemistry, and in the blood, using immunochemical assays, appears as a promising informative approach.

PCR-mismatch analysis of p53 gene mutation in Hodgkin's disease

Expression of the p53 protein can be detected by immunohistochemistry in Reed-Sternberg (RS) cells, the presumed neoplastic component of Hodgkin's disease (HD) lesions. At present, there is no clear molecular evidence that p53 positive immunostaining in HD correlates with the presence of mutations or other structural alterations of the p53 gene. To address this question, 49 cases of HD have been investigated for p53 expression by immunohistochemistry, using the DO1 monoclonal antibody on paraffin sections. Thirty-seven out of 49 cases (75 per cent) exhibited positive immunostaining restricted to RS cells and variants. Among these 37 positive cases, ten cases were selected on the basis of a rich content of RS cells showing virtually 100 per cent DO1 positivity. A PCR-mismatch strategy was chosen for the detection of p53 mutations. The threshold level of sensitivity was assessed on positive cell-line controls. A proportion of 10-15 per cent p53 mutated cells mixed in a normal population could be identified. Total genomic DNA was extracted from the ten selected HD cases and PCR amplification of exons 5-8 of the p53 gene was performed. Heteroduplex mismatch analysis revealed no structural alterations of the p53 gene in any case. In view of these findings, it appears unlikely that the sensitivity of the method by itself can fully explain the negative results, although this possibility cannot be completely ruled out. Thus, it is conceivable that p53 positive immunostaining in HD may not necessarily imply genomic alterations in the classic 'hot spot' regions and may be related to another mechanism of p53 protein stabilization.

Expression of the p53 gene in Hodgkin's disease: dissociation between immunohistochemistry and clinicopathological data

Expression of the p53 protein has been detected recently by immunohistochemistry in Hodgkin's disease (HD), but the relationship between p53 expression and the prognosis and clinicopathological heterogeneity of HD is still unclear. To address these questions we investigated 49 cases of HD for p53 expression by immunohistochemistry using the DO1 monoclonal antibody (MAb) on paraffin sections. Thirty-five cases were simultaneously tested with the 1801 MAb on frozen sections. Thirty-seven of 49 cases (75%) were DO1 positive while 14 of 35 (40%) were PAb 1801 positive. Both MAbs gave a nuclear staining restricted to Reed Sternberg cells (RSCs) and variants and distributed among the three HD subtypes analyzed (ie, nodular lymphocyte predominant, nodular sclerosing, and mixed cellularity). The percentage of positive neoplastic cells in each case was heterogeneous, ranging from almost 100% to less than 5%. In 39 patients for whom clinical data were available statistical analysis did not show any significant correlation between p53-positive immunostaining and clinical staging, B symptoms, probability of relapse, or disease-free survival. We conclude that p53 expression is a common event in HD regardless of histological subtyping, but does not bear any pejorative significance.

Proliferation of Reed-Sternberg cells and variants in Hodgkin's disease

The proliferative activity and the origin of multinucleated Reed-Sternberg cells and mononuclear variants in Hodgkin's disease have been studied in the past using several techniques. The presence of both proliferating-cell nuclear antigen and the cell-proliferation-associated antigen Ki-67 have also been reported in Hodgkin's disease. P34cdc2 is the protein product of the cell-cycle-control cdc-2 gene. Using a monoclonal antibody against the protein p34, cases of three different histological subtypes of Hodgkin's disease have been studied along with normal tonsil and follicular lymphoma as controls. In all these cases of Hodgkin's disease, positive p34 staining was seen in the majority of Reed-Sternberg cells and mononuclear variants (> 80%), along with a proportion of small lymphocytes, mainly T cells. Staining was predominantly cytoplasmic and occasionally additional nuclear signals were apparent. In two cases, double immunostaining with the anti-p34 antibody and CM-1 for p53 demonstrated positive signals for both proteins within the same neoplastic cells. Although the presence of p34 in Reed-Sternberg or variant cells reflects mitosis and hence suggests proliferation, the possibility of endomitosis remains and may explain the multinucleated appearance of Reed-Sternberg cells.

Interleukin-7, interleukin-8, soluble TNF receptor, and p53 protein levels are elevated in the serum of patients with Hodgkin's disease

In a search for specific serum markers with prognostic impact, we evaluated the clinical significance of IL-4, IL-7, and IL-8 as well as TNF receptor levels and soluble p53 in the serum of patients with untreated Hodgkin's lymphoma (HD). No elevations were observed for IL-4, while IL-7 and IL-8 were elevated in 15/52 (29%) and 21/78 (27%) patients, respectively. Soluble TNF receptors were detected in 16/29 patients (55%), and were significantly elevated in 6 (21%). P53 was detected in 21/33 (64%) patients. While IL-7 levels, detectable sTNF receptors, and p53 were not correlated with other obvious parameters, elevated IL-8 levels were associated with the presence of B symptoms (p < 0.002) and occurred more often in the nodular sclerosis form than in other histological subtypes (p < 0.02). Further investigations that correlate these serum parameters with the situation at the cellular level of an involved tissue will help to elucidate the enigmatic biology of HD.

P53 as a marker of the malignant cell in Hodgkin's disease

BACKGROUND

The p53 gene has a tumor-suppressor function. The mutated gene encodes for a protein which has a longer half-life than the normal p53 protein. This enables the detection of the mutated p53 protein by immunohistochemistry.

MATERIALS AND METHODS

In this study we examined 53 lymph nodes of patients with Hodgkin's disease for the presence of p53. The lymph nodes were stained with DO-1 and CM-1, two antibodies directed against the p53 protein.

RESULTS

DO-1 weakly stained 2/14 samples positively, and CM-1 10/25. When preincubated with Target Unmasking Fluid, CM-1 stained 51/53 samples positively. Although, only Hodgkin and Reed-Sternberg cells stained positively, p53-negative Hodgkin and Reed-Sternberg cells were also seen in the same sample.

CONCLUSION

Based on these results, we conclude that the p53 mutated protein is present in a high number of cases with Hodgkin's disease, which is suggestive for an important event in the pathophysiology of the disease. In addition, because of the absence of positive staining in the surrounding lymphocytes, these cells are unlikely to be part of the malignant clone.

P53 protein expression in Hodgkin's disease

P53 is an oncosuppressor gene which is located on chromosome 17. Mutations of the p53 gene are closely associated with malignant transformation under in vitro conditions and are the most common genetic alteration in human malignancy. Unlike normal p53 protein which is unstable and usually cannot be detected by immunohistology, mutated p53 shows a decreased cell turnover rate and overexpression as compared with the wild-type protein. In this study a panel of four anti-p53 antibodies (PAb240, PAb421, PAb1801 and DO7) was applied to 52 cases of Hodgkin's disease: three cases of nodular lymphocytic predominance (LP), 33 cases of nodular sclerosis (NS), and 16 cases of mixed cellularity (MC). The results show that 53 protein is present in the Hodgkin's- and Reed-Sternberg cells in 82% of NS and 94% of MC, but not in nodular LP. It is suggested that mutations of the p53 gene and loss of normal p53 function are frequent in Hodgkin's disease and may be implicated in the pathogenesis of this disease.

p53 antigen in cervical condylomata, intraepithelial neoplasia, and carcinoma: relationship to HPV infection and integration

It has been proposed that wild-type p53 cell-regulating functions are annulled in human cervical carcinomas, either by mutations in the human papillomavirus (HPV)-negative cases or as a consequence of their complexing with HPV E6. The aim of this study was to test this hypothesis on 39 fresh cervical biopsies by p53 immunocytochemistry (ICC) with antibody PAb 240 and with NISH (non-isotopic in situ hybridization) and PCR (polymerase chain reaction) for HPV detection. p53 protein was present in the basal layer of pure wart virus infection; the basal to middle third of CIN (cervical intraepithelial neoplasia); in 19/22 (86 per cent) HPV-positive cervical carcinomas, ten of which contained integrated HPV; and in 4/8 (50 per cent) HPV-negative cervical carcinomas. Dual detection of p53 antigen and HPV 16 DNA in the same sections demonstrated either p53 protein or integrated HPV 16 alone in the majority of cells. Co-localization of both signals was only evident in isolated cells. These data suggest that PAb 240 immunoreactivity is not mutant-specific. They are, however, consistent with the conformation hypothesis which proposes that wild-type p53 changes from a suppressor (PAb 240-negative) to a promoter (PAb 240-positive) form during cell growth response. Hence, according to this hypothesis, p53 protein expression may represent either the wild-type promoter form or mutant p53 protein, both of which share the same conformation. This may explain co-localization of p53 and HPV in some tumours. However, the absence of p53 protein in 50 per cent HPV-negative squamous cell carcinomas suggests that not all HPV-negative tumours accumulate p53 protein.

Mutation of p53 in primary biopsy material and cell lines from Hodgkin disease

The p53 tumor-suppressor gene encodes a nuclear phosphoprotein that arrests cell cycle progress at G1. It may facilitate DNA damage repair and is frequently mutated in many human tumors. Hodgkin disease, a malignant condition of the lymphoid system, is characterized by the presence of Reed-Sternberg cells and mononuclear variants (Hodgkin cells), whose etiology remains unknown. The large multinucleated Reed-Sternberg cells often comprise < 1% of the total cell population within a biopsy specimen and are thought to be the neoplastic component in an admixture of reactive cells. It has been shown in the large majority of cases that up to 60% of these multinucleated cells react with CM-1, an anti-p53 antibody. However, whether this "overexpression" of p53 protein reflects abnormality at the DNA level can no longer be assumed by immunocytochemistry alone. p53 from six Hodgkin disease-derived cell lines was examined by immunoprecipitation, polymerase chain reaction (PCR)-single-strand conformation polymorphism analysis, and sequencing. In one cell line, point mutations were identified in exons 5 and 8 of p53. Sequencing of cloned PCR products confirmed the mutations to be on different alleles. A strategy involving extraction of nuclei followed by enrichment by flow cytometry was used to determine whether p53 overexpression in the Reed-Sternberg cells from patient biopsy material was due to mutations in this gene. Single-strand conformation polymorphism revealed additional bands in the polyploid nuclear preparations, suggesting abnormalities, and sequence analysis confirmed the presence of point mutations.