Kim Ow

Paraffin section storage and immunohistochemistry - Effects of time, temperature, fixation, and retrieval protocol with emphasis on p53 protein and MIB1 antigen

It has been observed that immunoreactivity in paraffin sections decreased during storage. In this study, stored paraffin sections from both biopsy material and cultured cells were assessed for changes in immunoreactivity, using color-based image analysis to quantitate extent and intensity of the stainings. For seven of the 11 antibodies studied, storage at 20 degrees C for 16 weeks reduced the extent of immunostaining compared with that of freshly cut sections. Furthermore, increased storage temperatures resulted in a progressive loss of immunoreactivity. After 2 weeks of storage, at both 4 degrees C and 20 degrees C, p53 protein- and MIB1-antigen expression was significantly reduced regarding extent and intensity. The extent of the immunoreactivity reduced more for p53 protein than for MIB1 antigen, but the intensity did not. Boric acid was used for antigen retrieval on sections stored for 12 weeks at 20 degrees C. For both p53 protein and MIB1 antigen, this resulted in an extent and intensity of immunostaining equal to or higher than (MIB1) that obtained in freshly cut sections, using citrate buffer. Staining of cultured cells confirmed the results from biopsy material on the influence of storage temperature. Fixation time only marginally influenced the storage-related decrease in immunoreactivity. In conclusion, storage of paraffin sections leads to a varying degree of decreased immunoreactivity for several antibodies. The degree is at least partly dependent on storage time and temperature but not fixation time. However, this may be compensated for by optimizing the antigen retrieval protocol.

Cytotoxic properties of immunoconjugates containing melittin-like peptide 101 against prostate cancer: in vitro and in vivo studies

Background: Monoclonal antibodies (MAbs) can target therapy to tumours while minimising normal tissue exposure. Efficacy of immunoconjugates containing peptide 101, designed around the first 22 amino acids of bee venom, melittin, to maintain the amphipathic helix, to enhance water solubility, and to increase hemolytic activity, was assessed in nude mice bearing subcutaneous human prostate cancer xenografts. Methods: Mouse MAbs, J591 and BLCA-38, which recognise human prostate cancer cells, were cross-linked to peptide 101 using SPDP. Tumour-bearing mice were used to compare biodistributions of radiolabeled immunoconjugates and MAb, or received multiple sequential injections of immunoconjugates. Therapeutic efficacy was assessed by delay in tumour growth and increased mouse survival. Results: Radiolabeled immunoconjugates and antibodies showed similar xenograft tropism. Systemic or intratumoural injection of immunoconjugates inhibited tumour growth in mice relative to carrier alone, unconjugated antibody and nonspecific antibody-peptide conjugates and improved survival for treated mice. Conclusions: Immunoconjugates deliver beneficial effects; further peptide modifications may increase cytotoxicity.

Higher expression of oncoproteins c-myc, c-erb B-2/neu, PCNA, and p53 in metastasizing colorectal cancer than in nonmetastasizing tumors.

AbstractBackground: Expression of individual oncogenes may predict outcome in patients with metastatic colorectal cancer (CRC). We studied the oncogene profile in the tumors of patients with CRC and assessed their value as predictors of liver metastases. Methods: The oncoproteins c-myc, c-erbB-2/neu (c-neu), PCNA and p53, were measured by immunohistochemistry in sections of metastasizing human CRC (n=34) and their liver secondaries as well as in sections of nonmetastasizing CRC (n=25). Results: The metastasizing primary CRC expressed proliferating-cell nuclear antigen (PCNA), c-neu, and c-myc at significantly higher levels than the nonmetastasizing primary cancer. p53 was also overexpressed in the metastatic group compared with the nonmetastasizing CRC, but this difference was not significant. The frequency of expression of all these markers was similar in the metastasizing primary CRC and the liver secondaries from the same patients. There was no correlation between the expression of the individual markers and histological grade, DNA ploidy, and subsequent local recurrence and lung metastasis and survival. However, when both groups were assessed together, positive expression of c-myc was more likely to occur in poorly differentiated tumors, whereas PCNA expression increased with more advanced Dukes stages. Conclusion: These results suggest that the overexpression of c-myc, c-neu, PCNA, and p53 may occur in CRC that are likely to metastasise to the liver.

Methylation of a CpG island within the promoter region of the KAI1 metastasis suppressor gene is not responsible for down-regulation of KAI1 expression in invasive cancers or cancer cell lines

The molecular basis for downregulation of the KAI1 metastasis suppressor gene in invasive and metastatic human cancers is unknown. We have used bisulphite methylation analysis of DNA from paraffin-embedded invasive bladder tumour samples and from bladder cancer cell lines to determine if hypermethylation of a CpG island within the KAI1 promoter is responsible for this effect. Representative invasive tumour cell lines were also exposed to 5-aza-2-deoxycytidine. We found no evidence for hypermethylation of the CpG island and suggest that mechanisms other than promoter hypermethylation are responsible for reduced KAI1 expression in invasive bladder tumours and tumour cell lines.

Combination of cytosine deaminase with uracil phosphoribosyl transferase leads to local and distant bystander effects against RM1 prostate cancer in mice

We aimed to evaluate the efficacy of gene‐directed enzyme‐prodrug therapy (GDEPT) using cytosine deaminase in combination with uracil phosphoribosyl transferase (CDUPRT) against intraprostatic mouse androgen‐refractory prostate (RM1) tumors in immunocompetent mice. The product of the fusion gene, CDUPRT, converts the prodrug, 5‐fluorocytosine (5FC), into 5‐fluorouracil (5FU) and other cytotoxic metabolites that kill both CDUPRT‐expressing and surrounding cells, via a ‘bystander effect’.

Relationship between expression of the KAI1 metastasis suppressor and other markers of advanced bladder cancer

Expression of a newly described inhibitor of tumour metastasis, KAI1, was examined in bladder cancer progression and compared with the expression of p53 and pRb, which are markers of advanced disease. KAI1 mRNA (by in situ hybridization) and protein levels (by immunohistochemistry) were examined in 135 paraffin‐embedded bladder tissue sections. Significant decreases in KAI1 mRNA and protein levels were detected between normal and tumour tissue (p<0.001 and p=0.026, respectively), and between non‐invasive and invasive tumours (p=0.046 and p<0.001, respectively). Loss of KAI1 protein expression was accompanied by a shift in staining pattern from a uniform distribution to a weaker, membranous or heterogeneous pattern. Normal tissue and low‐grade tumours showed little p53 protein staining. High level staining (indicative of mutant p53) was associated with increased grade in non‐invasive tumours (p=0.031) but was not significantly higher in invasive tumours. Whilst p53 protein staining increased with malignant progression and KAI1 mRNA expression decreased, there was no significant correlation between the two patterns (p=0.33, adjusted for group, p=0.18) or when only cancer samples were analysed (p=0.065, adjusted for group, p=0.26), even when taking into account overexpression of MDM‐2 protein as a pathway for inactivation of p53. There was no correlation between loss of KAI1 mRNA expression and gain of abnormal pRb staining (p=0.30, or adjusted for tumour samples only, p=0.59). These results suggest that loss of KAI1 expression is associated with invasive bladder cancer, but is not related to mutation of p53 or to loss of normal pRb expression. Copyright

Downregulation of KAI1 mRNA in localised prostate cancer and its bony metastases does not correlate with p53 overexpression

Recent data have proposed that transcription of the KAI1 metastasis suppressor gene is directly mediated by p53 and that loss of KAI1 expression in advanced prostate cancer is simply due to loss of p53 function after mutation. To investigate this possibility, we have examined KAI1 mRNA (by in situ hybridisation) and p53 protein expression (by immunohistochemistry) as an indicator of wildtype or mutant p53, in a series of 77 paraffin-embedded prostate tissue samples, including post-mortem normal prostates (2), benign prostatic hyperplasia (10), localised cancer (grades 4–6, 25; grades 7–9, 21) and prostate-derived bony metastases (19). Overall, we confirmed that expression of KAI1 mRNA decreased from normal tissue, through localised cancer to bony metastases (P=0.055, tending to significance), while levels of p53 staining significantly increased with cancer progression (P=0.046). These were consistent with the possibility that loss of p53 function might be responsible for loss of KAI1 mRNA. However, by close examination of KAI1 and p53 in adjacent tissue sections, we found no correlation between decreased levels of KAI1 mRNA and overexpression of p53 protein (P=0.497). In addition, high levels of KAI1 mRNA could be identified in samples irrespective of p53 staining. Our data suggest that mutation of p53 is independent of the loss of KAI1 mRNA, and do not support a role for p53 in regulating the expression of KAI1.

Expression of insulin-like growth factor mitogenic signals in adult soft-tissue sarcomas: significant correlation with malignant potential

The insulin-like growth factor (IGF) signal transduction system involves receptors, ligands and binding proteins (IGFBPs) that have been shown to have mitogenic and distinct anti-apoptotic effects on malignant cell lines of both epithelial and mesenchymal origin. Expression of the IGF signal system might be a mechanism by which human soft-tissue sarcomas (STS) obtain a proliferative advantage over normal adjacent tissues. IGFBP2, one of at least six different binding proteins identified to date, is secreted by most sarcoma cell lines and appears to be involved in cell proliferation and transformation. Circulating levels of this protein are markedly increased in malignancy. We have assessed 46 adult STS specimens of low, intermediate and high pathological grade of malignancy for the immunohistochemical expression of IGFBP2, IGF1, IGF2, IGF1 receptor-α and -β (IGF1Rα/β). The protein expression was measured by quantitative color video image analysis and semi-quantitative evaluation, and the measurements correlated well (Spearman, P<0.001). Using both methods, significant differences in expression of IGFBP2 among each of the three grades, expression of IGF2 between intermediate and high grade, and expression of IGF1Rβ between low-intermediate and low-high grade were observed (Dunnett test, P<0.05). Multiple regression analysis for both quantitative and semi-quantitative data confirmed the significance of the relationship and independence of the proteins, except IGF2. We concluded that IGFBP2 and IGF1Rβ are independent predictors of the malignant potential of adult STS.

Biodistributions of intact monoclonal antibodies and fragments of BLCA-38, a new prostate cancer directed antibody

Background: Monoclonal antibodies (MAbs) are used for targeting agents to tumours while minimizing normal tissue exposure. Methods: A new anti–prostate cancer MAb, BLCA-38, was radioiodinated (I125) and assessed for its ability to target subcutaneous human prostate cancer (DU-145) xenografts after systemic intraperitoneal administration. For comparison, the profile of J591 MAb (now in clinical trial) against LNCaP-LN3 tumours was examined. Biodistribution profiles were obtained at various times, by assessing injected dose/gram (%ID/g) and xenograft to blood (X/B) ratios. Microautoradiography of xenografts was performed. After conjugation with a melittin peptide toxin, the profiles of BLCA-38 and J591 were compared with that of an irrelevant antibody, DS-1. Results: Xenograft localization by 125I-labeled BLCA-38 and J591 MAbs to their relevant antigen-positive tumors was comparable, and there was no unusual localization in nontumour tissues. F(ab’)2 and Fab fragments gave improved X/B ratios, but the %ID/g xenograft was decreased and they accumulated in kidneys, bladder and stomach. In contrast, the conjugates of irrelevant antibody showed no tumour targeting. Microautoradiography showed more tumour accumulation of MAbs than F(ab’)2s or Fabs. Conclusions: BLCA-38 can target prostate cancer in vivo almost as effectively as J591. Given that J591 is used clinically, BLCA-38, which targets a different antigen, has potential for radioimmunoscintigraphy and for therapeutic targeting of prostate cancer.

Elevated levels of prostate‐specific antigen (PSA) in prostate cancer cells expressing mutant p53 is associated with tumor metastasis

The underlying basis for rising levels of prostate‐specific antigen (PSA) in prostate cancer is not fully understood, but attention has turned to the possibility that loss of normal p53 function might be directly involved. We have investigated the relationship between p53 function and PSA expression using in vitro and in vivo approaches. Three prostate cancer–derived p53 mutants (F134L, M237L, R273H) were introduced into LNCaP prostate cancer cells and stable transfectants established. Expression of mutant p53 was demonstrated by Western blot analysis, inactivation of wtp53 function, and a loss of p53‐dependent responses to DNA damage induced by UV‐irradiation and cisplatin. Levels of PSA mRNA and secreted protein were determined by RT‐PCR and Western blotting, respectively. Serine protease activity was assessed using an esterase assay. In vivo effects of mutant p53 expression were examined after orthotopic implantation into prostates of nude mice. Expression of all p53 mutants was associated with elevated PSA mRNA and secreted PSA protein. In a representative line, mutant p53 was also associated with increased PSA protease‐like activity compared with a control line expressing wildtype p53. Overall PSA levels, and PSA levels in serum from mice bearing tumors derived from cells expressing mutant p53, were increased compared with levels in mice bearing tumors derived from control cells. In addition, the tumors derived from cells with mutant p53 had increased vascularization and induced lymph node metastases. These data provide in vitro and in vivo support for the notion that p53 mutations directly contribute to increased levels of serum PSA, and are associated with more aggressive tumors.