ABSTRACT We report on a novel posttranslational modification of cytoplasmic proteins. Presented evidences suggest that cytokeratins are bound in vitro by mammalian galectin-3 and the galectins from the sponge Geodia cydonium via their type II carbohydrate recognition domains, whose highest binding affinity is directed towards terminal α-N-acetylgalactosamine-bearing glycans with the general sequence GalNAcα1-3Gal(NAc) β. Specificity analyses and the characterization of the critical sugar residue on cytokeratins for galectin binding were done with cytochemical and biochemical methods using various plant and animal lectins. Binding of GalNAc-specific lectins was saturable, sensitive to mild periodate oxidation, inhibitable by glycoconjugates carrying terminal GalNAc, and abolished after treatment of the cytokeratins with α-N-acetylgalactosaminidase. Binding to bacterially expressed recombinant cytokeratins did not exceed background binding. The presence of GalNAc residues on highly purified cytokeratins from MCF-7 and HeLa SS6 cells was confirmed by sugar composition analyses using gas chromatography/mass spectrometry. This novel posttranslational modification was not restricted to cytokeratins of MCF-7 cells, but did also occur in all of 9 other examined human carcinoma cell lines and in a normal human mammary epithelial cell line. From these cytochemical and biochemical in vitro studies we hypothesize that this glycan with its terminal α1-3 linked GalNAc determinant might represent the first natural cytoplasmic ligand for endogenous galectins-3 detected so far.
Aim: PankoMab is a novel antibody that recognizes a tumor-specific epitope of Mucin 1 (MUC1). The aim of this study was the evaluation of PankoMab as a potential diagnostic tool and its comparison with two established antibodies against MUC1 in human ductal breast cancer. Materials and Methods: Breast carcinomas were obtained from 82 patients. MUC1 expression and hormone receptor status were determined by immunohistochemistry of paraffin-embedded material. Results: PankoMab revealed strong correlation to hormone receptor expression. DF3 showed no correlation with grading, lymph node involvement and/or estrogen receptor (ER) expression. In the subgroup of lymph node-positive and ER-negative tumors, we saw a significantly reduced DF3 staining in G3 tumors compared to G2 tumors. VU-4-H5 showed increased staining intensity in correlation with increased grading. In addition, we also identified a significantly higher expression of the VU-4-H5 epitope in lymph node-positive carcinomas compared to carcinomas without lymph node involvement. Conclusion: PankoMab revealed strong correlation to hormone receptor expression in ductal carcinoma of the breast. VU-4-H5 showed increased staining intensity in correlation with increased grading and lymph node involvement. PankoMab and VU-4-H5 staining could be a useful combination in ductal breast cancer prognosis by immunohistochemistry.
Mucin 1 (MUC1) is a glycoprotein in human endometrium and is abundant at the luminal epithelial surface in the receptive phase. It has a highly glycosylated ecto-domain that contains keratan sulfate chains, that disappears at the time of implantation. In addition, the glycoforms on MUC1 differ in fertile and infertile women. Therefore the aims of this study were investigations on glycosylation of MUC1 with the Thomsen-Friedenreich (TF) epitope on normal human endometrium throughout the menstrual cycle and binding of galectin-1 on the TF epitope in the endometrium and the expression of galectin-1 on the human oocyte. Human endometrial tissue was obtained from 54 premenopausal patients and was immunohistochemically analyzed with monoclonal antibodies against MUC1, TF epitope, galectin-1, and biotinylated galectin-1. In addition, human oocytes were analyzed for TF, galectin-1 expression, and galectin-1 binding. We identified a significant upregulation of MUC1 and TF epitope and, in addition, galectin-1 binding in glandular epithelium and epithelial apical surface tissue from proliferative to secretory phase. With double staining experiments, we identified a coexpression of TF and MUC1 in the early secretory phase and galectin-1 binding to TF during the same period of time. In addition we identified TF epitope and galectin-1 expression plus binding on the human oocyte and irregularly fertilized oocytes. Upregulation of TF epitope on the glandular epithelium and epithelial apical surface tissue in the secretory phase and binding of galectin-1 at the same time show the possibility of galectin-1–mediated trophectoderm binding to the endometrium within the window of implantation.
