Koen Jacobs scite author profile

Neoexpression or upregulation of placental cadherin (P-cadherin), a member of the classical cadherin family, has previously been described in several carcinomas, such as colorectal and bladder carcinomas. In this study, we combined two different approaches, immunohistochemistry of tumor samples and in vitro knockdown of P-cadherin, to gain a better insight into the role of P-cadherin in these types of cancer. First, we performed immunohistochemistry for P-and E-cadherins in a series of 52 colorectal adenocarcinomas, including well, moderately and poorly differentiated (WD, MD, and PD) tumors. Decrease or loss of P-cadherin neoexpression was significantly associated with a higher tumor grade and could discriminate WD from MD and/ or PD tumors (p < 0.001). E-cadherin, on the other hand, was strongly expressed at the membrane of most WD (18 of 19) and MD tumors (15 of 19). Downregulation correlated significantly with the PD phenotype (p 0.001). In a second approach, we transiently or stably knocked down P-cadherin in HT-29 colon adenocarcinoma cells. This led to decreased intercellular adhesion and to an increased migratory and long-term invasive phenotype compared with control HT-29 cells, suggesting that P-cadherin acts as a proadhesive and anti-invasive/antimigratory molecule in colon carcinoma cells. Contrasting with these results and illustrating the context-specific function of P-cadherin were our results obtained in RT-112 bladder carcinoma cells. Stable knockdown of P-cadherin in RT-112 cells diminished invasion and migration, and promoted intercellular adhesion.Placental cadherin (P-cadherin) belongs to the family of the classical cadherins and is primarily expressed in the basal part of epithelia throughout the human body.

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P-cadherin counteracts myosin II-B function: implications in melanoma progression

Jacobs

Gele

Forsyth

et al. 2010

Mol Cancer

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BackgroundMalignant transformation of melanocytes is frequently attended by a switch in cadherin expression profile as shown for E- and N-cadherin. For P-cadherin, downregulation in metastasizing melanoma has been demonstrated, and over-expression of P-cadherin in melanoma cell lines has been shown to inhibit invasion. The strong invasive and metastatic nature of cutaneous melanoma implies a deregulated interplay between intercellular adhesion and migration-related moleculesResultsIn this study we performed a microarray analysis to compare the mRNA expression profile of an invasive BLM melanoma cell line (BLM LIE) and the non-invasive P-cadherin over-expression variant (BLM P-cad). Results indicate that nonmuscle myosin II-B is downregulated in BLM P-cad. Moreover, myosin II-B plays a major role in melanoma migration and invasiveness by retracting the tail during the migratory cycle, as shown by the localization of myosin II-B stress fibers relative to Golgi and the higher levels of phosphorylated myosin light chain. Analysis of P-cadherin and myosin II-B in nodular melanoma sections and in a panel of melanoma cell lines further confirmed that there is an inverse relationship between both molecules.ConclusionsTherefore, we conclude that P-cadherin counteracts the expression and function of myosin II-B, resulting in the suppression of the invasive and migratory behaviour of BLM melanoma cells

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P-cadherin expression reduces melanoma growth, invasion, and responsiveness to growth factors in nude mice

Jacobs

Feys

Vanhoecke

et al. 2011

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The prognostic discrepancy between localized melanoma and metastatic disease demands a better understanding of melanoma progression. The role of E-cadherin and N-cadherin in melanoma has been widely studied; however, the function of P-cadherin remains to be elucidated. We wanted to assess the effects of P-cadherin overexpression in BLM melanoma cells with regard to xenograft growth, invasion, and survival of mice in our model to mimic micrometastatic spread. Swiss nu/nu mice were subcutaneously injected with control (BLM LIE) and P-cadherin overexpressing (BLM P-cad) melanoma cells alone and in combination with myofibroblasts, and intracardially injected with BLM LIE and BLM P-cad cells. Tumor volumes and survival of mice were assessed and analyzed. In-vitro assays were used to further investigate the influence, and identify the target receptors of growth factors secreted by myofibroblasts in melanoma cells. In-vivo experiments point out that P-cadherin reduces xenograft growth (1621 mm ± 107 vs. 329 mm ± 71) and invasion, and prolongs overall survival (34.1 ± 0.84 vs. 51.1 ± 1.8 days) of mice in our model to mimic micrometastatic spread. Coinjection with myofibroblasts resulted in increased tumor growth in BLM LIE (3896 mm ± 64 vs. 1621 mm ± 107) in contrast to BLM P-cad (417 mm ± 47 vs. 329 ± 71). P-cadherin reduces melanoma growth and invasion, prolongs the survival of mice intracardially injected, and induces a state of decreased responsiveness to myofibroblast-derived growth factors. Therefore, P-cadherin can be considered as a potential therapeutic target in the treatment of melanoma.

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Koen Jacobs

EGFR in melanoma: clinical significance and potential therapeutic target

P‐cadherin in adhesion and invasion: Opposite roles in colon and bladder carcinoma

P-cadherin counteracts myosin II-B function: implications in melanoma progression

P-cadherin expression reduces melanoma growth, invasion, and responsiveness to growth factors in nude mice

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