Claudin-6 enhances the malignant progression of gestational trophoblastic neoplasm by promoting proliferation and metastasis.

PURPOSE: Choriocarcinoma (CC) is a rare and highly malignant epithelial tumour. However, the mechanism underlying its occurrence and development remains unknown. We aimed to reveal the biological significance and prognostic value of Claudin-6 (CLDN6) in gestational trophoblastic disease (GTD). PATIENTS AND METHODS: We collected clinical GTD specimens from 2011 to 2019 and measured CLDN6 gene expression by immunohistochemistry (IHC). High-throughput mRNA sequencing (RNA-seq) revealed a GTD progression-associated gene. CCK-8, wound healing, and flow cytometry assays were used to assess the biological effects of CLDN6 overexpression and knockdown. The medical records of 118 GTD patients from 2011 to 2019 were retrospectively analysed to identify correlations between CLDN6 expression and GTD patient clinical-pathological parameters; these correlations were analysed using the chi-square test and one-way ANOVA. Univariate logistic regression was used to analyse various prognostic parameters of patients with post-molar GTN. RESULTS: CLDN6 had the second highest fold change in gene expression between GTN and normal samples. CLDN6 was highly expressed in GTN tissues and CC cell lines, and silencing CLDN6 inhibited the proliferation and migration and promoted the apoptosis of CC cells. CLDN6 overexpression was significantly correlated with uterine size (p = 0.01) and ovarian cysts > 6 cm (p = 0.027), CLDN6 expression was significantly higher in HR-GTNs than in low-risk GTNs (LR-GTNs) (p = 0.008), and logistic regression analysis showed that CLDN6 expression in hydatidiform moles (HMs) was related to a high risk of developing post-molar GTN (OR = 2.393, p = 0.03). CONCLUSION: We propose that CLDN6 participates in the development of GTD and may become a new therapeutic target for CC.

Distinct microRNA profiles for complete hydatidiform moles at risk of malignant progression.

BACKGROUND: MicroRNAs are small noncoding RNAs with important regulatory functions. Although well-studied in cancer, little is known about the role of microRNAs in premalignant disease. Complete hydatidiform moles are benign forms of gestational trophoblastic disease that progress to gestational trophoblastic neoplasia in up to 20% of cases; however, there is no well-established biomarker that can predict the development of gestational trophoblastic neoplasia. OBJECTIVE: This study aimed to investigate possible differences in microRNA expression between complete moles progressing to gestational trophoblastic neoplasia and those regressing after surgical evacuation. STUDY DESIGN: Total RNA was extracted from fresh frozen tissues from 39 complete moles collected at the time of uterine evacuation in Brazil. In the study, 39 cases achieved human chorionic gonadotropin normalization without further therapy, and 9 cases developed gestational trophoblastic neoplasia requiring chemotherapy. Total RNA was also extracted from 2 choriocarcinoma cell lines, JEG-3 and JAR, and an immortalized normal placenta cell line, 3A-subE. MicroRNA expression in all samples was quantified using microRNA sequencing. Hits from the sequencing data were validated using a quantitative probe-based assay. Significantly altered microRNAs were then subjected to target prediction and gene ontology analyses to search for alterations in key signaling pathways. Expression of potential microRNA targets was assessed by quantitative real-time polymerase chain reaction and western blot. Finally, potential prognostic protein biomarkers were validated in an independent set of formalin-fixed paraffin-embedded patient samples from the United States (15 complete moles progressing to gestational trophoblastic neoplasia and 12 that spontaneously regressed) using quantitative immunohistochemistry. RESULTS: In total, 462 microRNAs were identified in all samples at a threshold of <1 tag per million. MicroRNA sequencing revealed a distinct set of microRNAs associated with gestational trophoblastic neoplasia. Gene ontology analysis of the most altered transcripts showed that the leading pathway was related to response to ischemia (P<.001). Here, 2 of the top 3 most significantly altered microRNAs were mir-181b-5p (1.65-fold; adjusted P=.014) and mir-181d-5p (1.85-fold; adjusted P=.014), both of which have been shown to regulate expression of BCL2. By quantitative real-time polymerase chain reaction, BCL2 messenger RNA expression was significantly lower in the complete moles progressing to gestational trophoblastic neoplasia than the regressing complete moles (-4.69-fold; P=.018). Reduced expression of BCL2 was confirmed in tissue samples by western blot. Immunohistochemistry in the independent patient samples revealed significantly lower cytoplasmic expression of BCL2 in the villous trophoblasts from cases destined for progression to gestational trophoblastic neoplasia compared with those that regressed, both with respect to staining intensity (optic density 0.110±0.102 vs 0.212±0.036; P<.001) and to the percentage of positive cells (16%±28% vs 49.4%±28.05%; P=.003). CONCLUSION: Complete moles progressing to gestational trophoblastic neoplasia are associated with a distinct microRNA profile. miR-181 family members and BCL2 may be prognostic biomarkers for predicting gestational trophoblastic neoplasia risk.

Versican silencing in BeWo cells and its implication in gestational trophoblastic diseases.

Versican is a proteoglycan known to interact with cells to influence their ability to proliferate, differentiate, migrate, invade and assemble extracellular matrix, with all of these cell functions present during placentation. In the placenta, cytotrophoblast cells have the ability to differentiate into the syncytiotrophoblast, a mechanism that is greatly increased in gestational trophoblastic diseases (GTD). Nevertheless, the molecular signaling underlying the increased syncytiotrophoblast differentiation are still being unveiled and may result in novel therapeutic targets for GTD. Versican expression was investigated to establish its differential expression among GTD (partial moles, complete moles, invasive moles and choriocarcinoma) and the possible functional outcomes from versican gene silencing. Tissue samples had their versican expression evaluated using immunohistochemistry and RT-PCR. BeWo cells were employed for versican silencing with siRNA and the efficiency was confirmed by RT-PCR, immunofluorescence and flow cytometry. Cell death and forskolin-induced syncytialization were analyzed by a morphological analysis and human chorionic gonadotropin (hCG) production using immunofluorescence. Versican V0 and V1 isoforms were mainly expressed in the syncytiotrophoblast and they were the most expressed in benign rather than in malignant tumors. BeWo cells also expressed V0 and V1 isoforms, but only in cells undergoing syncytial fusion. After versican silencing, cell death was greatly increased, whereas spontaneous and forskolin-induced syncytialization decreased as well as hCG production. Versican is differentially expressed in GTD and is important for hydatidiform moles pathophysiology, protecting trophoblast cells from death and playing a role in their differentiation and functionality.

Preditores moleculares de evolução da mola hidatiforme no tecido trofoblástico / Molecular prognostic predictors in trophoblastic tissue of hydatidiform mole

A mola hidatiforme (MH) é a forma mais comum de doença trofoblástica gestacional e representa uma condição benigna que em alguns casos pode sofrer malignização. Todas as pacientes diagnosticadas com doenças molares são acompanhadas por pelo menos seis meses para detecção precoce da neoplasia trofoblástica gestacional. No momento, existem poucas ferramentas para avaliação prognóstica da mola hidatiforme. Foi descrita a expressão diferencial de diversos fatores em tecido molar em comparação ao trofoblasto não neoplásico. Essas moléculas podem estar relacionadas com o comportamento agressivo da MH e consequentemente poderiam servir para melhor entendimento do processo de malignização e como preditoras da evolução da doença trofoblástica gestacional.

The hydatidiform mole (HM) is the most common form of gestational trophoblastic disease and a benign condition that in some cases may undergo malignant transformation. All patients diagnosed with molar diseases are monitored for at least six months for early detection of gestational trophoblastic neoplasia. Currently, there are few prognostic tools for the prediction of hydatidiform mole evolution. Differential expression on molar tissue of different molecular factors have been described when compared to non-neoplastic trophoblast. These markers may be associated with aggressive behavior of HM and therefore could serve as predictors of the development of gestational trophoblastic disease and to better understand molar malignant transformation. This review article will summarize and evaluate prognostic molecular markers of HM.