Differential expression of E-cadherin, ß-catenin, and Lewis x between invasive hydatidiform moles and post-molar choriocarcinomas.

Trophoblast cell adhesion and migration are carefully coordinated during normal placental development. We have compared the expression of three adhesion molecules, E-cadherin, ß-catenin, and Lewis x, by immunohistochemistry during normal trophoblast differentiation, and in hydatidiform moles and choriocarcinomas. Both E-cadherin and ß-catenin were expressed in normal placenta cytotrophoblast, and this expression decreased with trophoblast maturation. E-cadherin was mainly localized along the contact between cytotrophoblast and syncytiotrophoblast, which indicates its role in the differentiation of the syncytial layer. Lewis x disappeared progressively during differentiation of normal villous vessels, and was expressed in molar pregnancies. Interestingly, whereas choriocarcinomas were not, or poorly, stained, invasive hydatidiform moles (invHMs) strongly expressed Lewis x in vascular structures. This observation correlated well with E-cadherin and ß-catenin expression and suggests that these three markers are associated with the invasive transformation. The presence of robust endothelial structures in invHMs could also explain their ability to maintain organized villous architecture (contrary to metastatic choriocarcinomas) during their invasion of extrauterine tissues such as the lung or the brain after dissemination through the blood flow. In our hands, Lewis x appeared to be a new, reliable marker that can be used to clearly distinguish invHMs from choriocarcinomas.

Altered p16 and Bcl-2 expression reflects pathologic development in hydatidiform moles and choriocarcinoma.

Abnormal trophoblast differentiation is the main cause of gestational trophoblast diseases in the case of hydatidiform moles and choriocarcinomas. Here we investigated the expression patterns of two gene products, p16 and Bcl-2, implicated in cell cycle regulation and apoptosis, respectively, using immunohistochemistry during normal placenta differentiation, hydatidiform moles (partial, complete and invasive) and post-molar choriocarcinomas. The p16 protein shows a gradual expression in cytotrophoblast of normal villous, from a p16 weak proliferative phenotype to a p16 strong invasive phenotype reaching a maximum around 17 weeks of gestation. The expression pattern in cytotrophoblast was similar in moles in contrast to the villous mesenchyme of invasive moles where p16 was strongly expressed. Bcl-2 expression was syncytiotrophoblast specific in normal placenta and moles and increased gradually during normal differentiation. The results explain the persistence of normal and molar villous fragments during their development and their dramatic invasion in the uterine arteries in case of invasive moles. In choriocarcinomas the weak Bcl-2 expression is associated with weak p16 expression indicating a great apoptotic and proliferative potentials. The results suggest that strong p16 expression in the villous mesenchyme may be responsible in part of the morbidity of the moles, and the key of cancer progression in the choriocarcinomas would be a fast cell-cycle turnover.

[TSC2/PKD1 contiguous gene syndrome. Report of two cases]. / Syndrome des gènes contigus TSC2/PKD1.

The two major genes responsible for autosomal dominant polycystic kidney disease and complex tuberous sclerosis are located on chromosome 16 at position 16p13.3, separated by only a few nucleotides. A simultaneous loss of both genes has been termed "the TSC2/PKD1 contiguous gene syndrome". It has been described essentially in young children. We report 2 new cases in French adults, in whom the diagnosis has been made fortuitously on the macroscopic and microscopic examination of the nephrectomy specimen. This diagnosis should be considered for the association of a polycystic kidney disease and numerous angiomyolipomas. It is necessary to set up a specific follow-up of both diseases.