PDAC is a disease with a dismal prognosis and ranks 9th in the incidence of solid cancers and 4th for cancer-related deaths, with an overall median survival of around 4–6 months. The only cure is surgery; however, this option is available only to a maximum of 20% of the patients diagnosed with the disease. Even for these patients, median survival is less than 2 years, and only few patients survive significantly longer. ALCAM - a cell adhesion molecule expressed by epithelial cells in several organs. It is expressed at sites of cell– cell contact and is associated intimately with adhesive structures that maintain the structural integrity of the epithelium in various organs, its expression and function has been evaluated in some desmoplasia including melanoma, prostate carcinoma, breast cancer, colorectal carcinoma, bladder cancer, and esophageal squamous cell carcinoma. Using our microarray analyses, we demonstrate that the expression of activated leukocyte cell adhesion molecule (ALCAM, CD166) is altered in pancreatic ductal adenocarcinoma (PDAC). Furthermore, ALCAM was found to be increased in the sera of patients suffering from pancreatic cancer suggesting a role in pancreatic carcinogenesis. We hypothesized that – due to its physiological function as a cell-cell contact protein – ALCAM might be involved in oncogenic transformation in both PNET and 62 PDAC and we propose ALCAM as a novel serum biomarker in human pancreatic cancer which is associated with cell adhesion, growth and chemoresistance. Interestingly, the majority of the pancreatic cancer tissue samples tested showed low or no immunoreactivity for ALCAM which is in contrast to the findings in the patient sera. Immunohistochemical analysis revealing weak ALCAM positivity in ductal cells in the normal pancreas while on islet cells, a strong membrane staining was found. In cancer cells, different staining patterns were observed: while some cancer cells showed various intensities of ALCAM positivity in the cytoplasm, we found cancer cell membrane staining in a minority of slides. In the functional experiments, there were striking differences in tumor cell behaviour comparing PDAC cells to PNET cells following ALCAM RNAi. The observed differences in chemoresistance induction might be attributable to the tested chemotherapeutic substances (i.e. gemcitabine vs. rapamycin) and suggest that ALCAM might have a specific role in relation to gemcitabine. This is of particular importance since gemcitabine is the “standard of care” both in the palliative and adjuvant treatment of pancreatic cancer. Interestingly, ALCAM silencing had no effect on pancreatic cancer growth which is indicative of a minor importance of cell-cell contacts for in vitro pancreatic cancer cell growth; since the epithelial integrity is disturbed in cell culture in any way, these findings might be a reflection of the model system used in our study. However, the role of ALCAM in cancer is generally controversially discussed, these equivocal results suggest that ALCAM 63 function might be dependent on a) the malignant cell type analyzed, b) the different tumor-stroma interactions present in various tumor entities and c) potentially also different (unknown) levels of proteases which might cleave ALCAM and could thus be ‘responsible’ for the observed differences in ALCAM functions. In addition, de-regulations of the protein sorting machinery could be the cause for the differences in ALCAM localization between different cancers but also for differences within one particular tumor entitiy (i.e. in this case PDAC). In our study, we propose ALCAM as a novel serum biomarker in human pancreatic cancer which is associated with cell adhesion, growth and chemoresistance. In conclusion, we demonstrate in this study that ALCAM expression is de-regulated in pancreatic cancer and in pancreatic neuroendocrine tumors, that it is a serum biomarker in PDAC and that it is associated with neuroendocrine tumor growth and exocrine cancer chemoresistance. These findings lay the basis for in depth analyses of ALCAM protein processing, signaling and of ALCAM-mediated cell-cell and cell-matrix interactions in PDAC and PNET. Clearly, additional research is needed to evaluate the role of ALCAM in each tumor type, to determine its interaction with other cellular intermediates, and to determine whether ALCAM is a therapeutic target to treat primary or metastatic tumors.     «

PDAC is a disease with a dismal prognosis and ranks 9th in the incidence of solid cancers and 4th for cancer-related deaths, with an overall median survival of around 4–6 months. The only cure is surgery; however, this option is available only to a maximum of 20% of the patients diagnosed with the disease. Even for these patients, median survival is less than 2 years, and only few patients survive significantly longer. ALCAM - a cell adhesion molecule expressed by epithelial cells in seve...     »

Zielsetzung: Zell-Zell-Kontakte sind wichtig für den Zusammenhalt von Epithelien in ihrem Zellverband. Bei Krebserkrankungen ist die Funktion von Zellkontaktproteinen häufig gestört, was zu erhöhter lokaler Invasivität und zur Fernmetastasierung führen kann. Methoden: Vorversuche zu unseren Experimenten zeigten, dass die Expression des aktivierten Leukozyten-Adhäsionsmoleküls (ALCAM, CD166), einem Glykoprotein, welches zur Familie der Immunglobuline gehört, im duktalen Adenokarzinom des Pankreas (PDAC) verändert ist. Um diese Daten zu validieren und um die Funktion von ALCAM im PDAC zu untersuchen, wurden quantitative Echtzeit-PCRs, Immunhistochemie-Analysen, RNAi-Experimente, sowie Untersuchungen zu Adhäsion, Migration, Invasion und Chemoresistenz durchgeführt. Ergebnisse: Wir konnten zeigen, dass ALCAM im Serum von Patienten mit einem PDAC signifikant erhöht war. Im normalen Pankreas wurde ALCAM an den Membranen der Inselzellen exprimiert, während es in den Pankreasgangepithelien nicht nachweisbar war. Im PDAC fand sich ALCAM bei einigen Tumoren an der Zellmembran und im Zytoplasma. Neuroendokrine Pankreastumoren (PNET) zeigten meist ein zytoplasmatisches Färbungsmuster für ALCAM, welches sich vom membranösen Färbungsmuster unterschied, das in normalen Inselzellen beobachtet wurde. Die Ausschaltung der 2 ALCAM-Expression in vitro mittels RNAi hatte keine Auswirkungen auf Wachstum oder Invasivität von Pankreaskarzinomzellen, bewirkte jedoch eine verminderte Zelladäsion und erhöhte Chemoresistenz. In Zelllinien von neuroendokrinen Pankreastumoren führte die ALCAM-RNAi zu vermindertem Zellwachstum. Schlussfolgerung: ALCAM ist ein neuer serologischer Biomarker für das Pankreaskarzinom, der mit Zellwachstum, Zellädhäsion und Chemoresistenz in Verbindung steht.     «

Zielsetzung: Zell-Zell-Kontakte sind wichtig für den Zusammenhalt von Epithelien in ihrem Zellverband. Bei Krebserkrankungen ist die Funktion von Zellkontaktproteinen häufig gestört, was zu erhöhter lokaler Invasivität und zur Fernmetastasierung führen kann. Methoden: Vorversuche zu unseren Experimenten zeigten, dass die Expression des aktivierten Leukozyten-Adhäsionsmoleküls (ALCAM, CD166), einem Glykoprotein, welches zur Familie der Immunglobuline gehört, im duktalen Adenokarzinom des P...     »