CONTEXT: Previous studies have indicated certain immunohistochemical markers, including WT1, may be helpful in distinguishing adenocarcinomas from mesotheliomas, but to date there are no reliable, widely accepted, commercially available antibodies positive in mesotheliomas and negative in adenocarcinomas. We compared the nuclear and cytoplasmic staining patterns of WT1 in these 2 malignancies using a commercially available antibody and examined the expression of 2 other previously reported positive markers, calretinin and thrombomodulin. METHODS: Sixty-seven mesotheliomas and 51 adenocarcinomas, all paraffin embedded, were retrieved from recent case files. The diagnosis of mesothelioma was based on typical clinical and morphologic features, as well as immunohistochemistry; electron microscopy had been performed on 16 cases. The diagnosis of adenocarcinoma was based on typical light microscopic findings and a positive stain for mucin. Commercially available antibodies to WT1, thrombomodulin, and calretinin were applied. Because of the conflict surrounding calretinin, 2 anticalretinin antibodies (from Chemicon Inc and Zymed Laboratories) were utilized. RESULTS: Fifty of 67 mesotheliomas showed strong nuclear staining with WT1. No adenocarcinomas (0/51) showed nuclear staining. Twenty-three of 67 mesotheliomas were positive for thrombomodulin, and 35 of 67 mesotheliomas were positive for calretinin with the Chemicon antibody. Nine of 15 mesotheliomas were positive for calretinin with the Zymed antibody. CONCLUSIONS: Thrombomodulin and calretinin did not prove useful in discriminating between mesotheliomas and adenocarcinomas. The degree of positivity with calretinin may be dependent on the specific antibody utilized. Nuclear staining for WT1 is highly specific for mesothelioma and, in the appropriate clinical setting, can be a helpful adjunct in the distinction between adenocarcinomas and mesotheliomas.
CONTEXT: Previous studies have indicated certain immunohistochemical markers, including WT1, may be helpful in distinguishing adenocarcinomas from mesotheliomas, but to date there are no reliable, widely accepted, commercially available antibodies positive in mesotheliomas and negative in adenocarcinomas. We compared the nuclear and cytoplasmic staining patterns of WT1 in these 2 malignancies using a commercially available antibody and examined the expression of 2 other previously reported positive markers, calretinin and thrombomodulin. METHODS: Sixty-seven mesotheliomas and 51 adenocarcinomas, all paraffin embedded, were retrieved from recent case files. The diagnosis of mesothelioma was based on typical clinical and morphologic features, as well as immunohistochemistry; electron microscopy had been performed on 16 cases. The diagnosis of adenocarcinoma was based on typical light microscopic findings and a positive stain for mucin. Commercially available antibodies to WT1, thrombomodulin, and calretinin were applied. Because of the conflict surrounding calretinin, 2 anticalretinin antibodies (from Chemicon Inc and Zymed Laboratories) were utilized. RESULTS: Fifty of 67 mesotheliomas showed strong nuclear staining with WT1. No adenocarcinomas (0/51) showed nuclear staining. Twenty-three of 67 mesotheliomas were positive for thrombomodulin, and 35 of 67 mesotheliomas were positive for calretinin with the Chemicon antibody. Nine of 15 mesotheliomas were positive for calretinin with the Zymed antibody. CONCLUSIONS:Thrombomodulin and calretinin did not prove useful in discriminating between mesotheliomas and adenocarcinomas. The degree of positivity with calretinin may be dependent on the specific antibody utilized. Nuclear staining for WT1 is highly specific for mesothelioma and, in the appropriate clinical setting, can be a helpful adjunct in the distinction between adenocarcinomas and mesotheliomas.
Authors: Lee M Krug; Tao Dao; Andrew B Brown; Peter Maslak; William Travis; Sara Bekele; Tatyana Korontsvit; Victoria Zakhaleva; Jedd Wolchok; Jianda Yuan; Hao Li; Leslie Tyson; David A Scheinberg Journal: Cancer Immunol Immunother Date: 2010-06-08 Impact factor: 6.968
Authors: E Buommino; I Paoletti; A De Filippis; R Nicoletti; M L Ciavatta; S Menegozzo; M Menegozzo; M A Tufano Journal: Cell Prolif Date: 2010-04 Impact factor: 6.831
Authors: Nico van Zandwijk; Christopher Clarke; Douglas Henderson; A William Musk; Kwun Fong; Anna Nowak; Robert Loneragan; Brian McCaughan; Michael Boyer; Malcolm Feigen; David Currow; Penelope Schofield; Beth Ivimey Nick Pavlakis; Jocelyn McLean; Henry Marshall; Steven Leong; Victoria Keena; Andrew Penman Journal: J Thorac Dis Date: 2013-12 Impact factor: 2.895
Authors: S Cedrés; M A Montero; E Zamora; A Martínez; P Martínez; L Fariñas; A Navarro; D Torrejon; A Gabaldon; S Ramon Y Cajal; E Felip Journal: Clin Transl Oncol Date: 2013-12-10 Impact factor: 3.405