Enzyme-linked immunosorbent assay (ELISA) methods and immunohistochemistry (IHC) are techniques that provide information on protein expression in tissue samples. Both methods have been used to investigate the impact of the plasminogen activation (PA) system in cancer. In the present paper we first compared the expression levels of uPA, tPA, PAI-1 and uPAR in a compound group consisting of 33 cancer lesions of various origin (breast, lung, colon, cervix and melanoma) as quantitated by ELISA and semi-quantitated by IHC. Secondly, the same kind of comparison was performed on a group of 23 melanoma lesions and a group of 28 breast carcinoma lesions. The two techniques were applied to adjacent parts of the same frozen tissue sample, enabling the comparison of results obtained on material of almost identical composition. Spearman correlation coefficients between IHC results and ELISA results for uPA, tPA, PAI-1 and uPAR varied between 0.41 and 0.78, and were higher for the compound group and the breast cancer group than for the melanoma group. Although a higher IHC score category was always associated with an increased median ELISA value, there was an overlap of ELISA values from different scoring classes. Hence, for the individual tumour cases the relation between ELISA and IHC is ambiguous. This indicates that the two techniques are not directly interchangeable and that their value for clinical purposes may be different. © 1999 Cancer Research Campaign
Application of tetrameric MHC class I-peptide complexes has signiWcantly improved the monitoring of antigen-speciWc T cell immune responses in mouse models as well as in clinical studies. Especially MHC class I tetramer analysis of tumor-speciWc T cells in suspension or on thick vibratome sections from viable tissue has been proven extremely useful. Using the well-characterized mouse tyrosinase-related-protein-2 speciWc cytotoxic T cell (CTL) clone LP9, we now developed a method that allows for speciWc identiWcation of T cells with MHC class I tetramers in 8 m thick, chemically Wxed cryosections. The protocol was validated in a murine inXuenza virus-infection model. Moreover, analysis of delayed type hypersensitivity (DTH) skin biopsies from melanoma patients vaccinated with peptide-loaded mature dendritic cells, revealed the presence and location of anti-tumor CTLs. The speciWcity of the CTLs detected in situ correlated with both the DTH challenge speciWcity and reactivity of cell suspensions derived from the same biopsies. Collectively, our data demonstrate that in situ MHC class I tetramer staining provides a valuable tool to reveal the presence and anatomical location of speciWc CTLs in frozen tissue following immunebased treatment strategies in cancer patients.
We present a systematic analysis of the sensitivity and specificity of immunohistochemical stainings for components of the plasminogen activation system, i.e., uPA, tPA, PAI-1, PAI-2, and uPAR, on routinely processed (formalin-fixed, paraffin-embedded) tissues. Five to nine antibodies per component were tested and the influence of different antigen retrieval regimens on immunoreactivity was investigated. We studied six different microwave-mediated pretreatments and two pretreatments by proteolytic digestion. First, positive and negative control tissues were stained. Then, frozen and paraffin sections from the same cancer lesions were stained after specific modes of pretreatment and with selected antibodies. For each component, one or a few of the tested Abs gave optimal staining on paraffin sections when combined with a particular tissue pretreatment. For PAI-1, and to a lesser degree also for tPA, an underrepresentation of stromal cell staining in paraffin material was found, whereas tumor cells showed good staining. For uPA, PAI-2, and uPAR, consistent staining results were obtained on paraffin sections.
The plasminogen activation (PA) system is involved in the process of invasion and metastasis. Its major components are urokinase (uPA) and tissue-type plasminogen activator (tPA), plasminogen activation inhibitor type 1 and 2 (PAI-1 and PAI-2) and a receptor for urokinase (uPAR). In this study, the expression of plasminogen activation components in Spitz naevi was compared with that in common and dysplastic naevi on the one hand and primary cutaneous melanomas on the other. Spitz naevi had melanocytic positivity for uPA in 0% (0/36), tPA in 30% (6/20), PAI-1 in 10% (3/35), PAI-2 in 40% (8/21) and uPAR in 60% (13/21) of cases. This far exceeded the expression found in common (n = 25) and dysplastic (n = 15) naevi, which only showed melanocytic positivity for PAI-2 (20% and 15% respectively) and in one dysplastic naevus also for uPAR. This was much (for most components significantly) less than the proportion of primary melanomas with tumour cell positivity, which was 30% (11/38) for uPA, 80% (19/24) for tPA, 75% (28/38) for PAI-1, 80% (19/24) for PAI-2 and 80% (19/24) for uPAR. The main findings of this study are that Spitz naevi, firstly, may express plasminogen activator (tPA), inhibitors and the receptor of the PA system, but in a much smaller proportion than cutaneous melanomas; and secondly, do not express urokinase, whereas some of the melanomas do. uPA positivity may therefore be suggestive of melanoma. However, overlapping staining results imply that the PA system has limited value in the differential diagnosis between Spitz naevus and primary melanoma. As serine protease components are expressed, Spitz naevi may use this proteolytic machinery to accomplish matrix degradation, although in a more restricted, possibly transient manner than melanomas.
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