Expression pattern of the CCAAT/enhancer-binding protein C/EBP-beta in gestational trophoblastic disease.

The CCAAT/enhancer-binding protein (C/EBP) family consists of several factors that are important regulators of intracellular processes and hormone action. C/EBP-beta, the most important member of the C/EBP family, was shown recently to be expressed in the normal human placenta where it is localized in villous syncytiotrophoblast and in the extravillous (intermediate) trophoblast but not the villous cytotrophoblast. The purpose of this study was to investigate the expression pattern of C/EBP-beta in gestational trophoblastic disease (GTD) which has not been studied so far. We used immunohistochemistry on a total of 15 cases of GTD including nine complete hydatidiform moles, one placental site nodule (PSN), one placental site trophoblastic tumor (PSTT), and four choriocarcinomas. All our tested specimens showed positivity for C/EBP-beta. The strongest C/EBP-beta expression could be observed in villous syncytiotrophoblast and in the trophoblast proliferations on the villous surface of hydatidiform moles; villous cytotrophoblast was negative. The PSN also showed positive nuclear staining but the expression was not as strong as it was in the hydatidiform moles and the total amount of stained cells was the lowest of all GTD. The PSTT also showed immunoreactivity but with a weaker and more heterogeneous staining than in the choriocarcinomas. The specific expression pattern of C/EBP-beta in GTD indicate that C/EBP-beta could potentially be an additional marker of such lesions.     

Osteopontin expression in gestational trophoblastic diseases: correlation with expression of the adhesion molecule, CEACAM1.

The human placenta is a complex tissue with multiple endocrine and nutritional functions and a unique capacity for rapid proliferation but tightly controlled invasion, differentiating it from malignant tumors. Osteopontin (OPN) is a glycoprotein of the extracellular matrix, which has been shown to mediate cellular migration and invasion and to contribute to tumorigenesis in several types of cancers. OPN also could be implicated in regulating implantation and placentation by promoting cellular migration and invasion in a placenta-specific fashion. We could demonstrate the expression pattern of OPN in the normal human placenta in which it is localized in the extravillous (intermediate) trophoblast and the villous cytotrophoblast. CEACAM1 is an adhesion molecule, which we have recently found to be expressed at the maternal-fetal interface of the normal placenta with a localization to the extravillous (invasive) trophoblast and in gestational trophoblastic disease (GTD) and also to be potentially implicated in trophoblast invasion and tumorigenesis. Both OPN and CEACAM1 have been shown to interact with integrin beta3. The purpose of this study was to investigate the expression pattern of OPN in GTD and to correlate it with the expression of CEACAM1. To analyze the expression of OPN, we performed immunohistochemistry on a total of 27 cases of GTD, including 21 hydatidiform moles and 6 choriocarcinomas, which had previously been characterized with respect to their CEACAM1 expression. Hydatidiform moles showed a positivity for OPN in villous cytotrophoblast and in the trophoblast proliferations on the villous surface. The strongest OPN expression could be observed in the choriocarcinomas with a heterogenous OPN expression pattern. CEACAM1 had shown similar results and was found to be expressed in choriocarcinoma. The expression pattern of osteopontin in gestational trophoblastic diseases indicates that it might play a role in the pathogenesis of GTD (possibly as a functional complex with CEACAM1 and integrin beta3) and might be useful as an additional diagnostic marker for such lesions.     

c-mos immunoreactivity aids in the diagnosis of gestational trophoblastic lesions.

C-mos is an important proto-oncogene involved in the mitogen-activating protein kinase pathway. This study was designed to explore c-mos immunoreactivity in gestational trophoblastic lesions and compare it with immunoreactivity in normal placentas as well as other gynecological lesions and germ cell tumors using antibody P-19. The immunohistochemical distribution of c-mos in 159 cases of gynecological lesions and 26 germ cell tumors using formalin-fixed, paraffin-embedded tissues was evaluated. The lesions included 45 (32 complete and 13 partial) hydatidiform moles, 17 choriocarcinomas, 5 placental site trophoblastic tumors, 18 squamous cell carcinomas and 5 adenocarcinomas of the cervix, 11 endometrial carcinomas, 9 ovarian carcinomas, 4 primary peritoneal papillary serous carcinomas, 9 low-grade endometrial stromal sarcomas, 4 epithelioid leiomyomas, 6 leiomyosarcomas, and 26 gem cell tumors (3 embryonal carcinomas, 5 yolk sac tumors, 6 immature teratomas, and 3 mature teratomas from the ovary; 9 testicular seminomas). Twenty-six normal placentas also were included for comparison. Among cases of gestational trophoblastic diseases, c-mos immunoreactivity was found in all hydatidiform moles and choriocarcinomas, but in none of the placental site trophoblastic tumors. The c-mos staining pattern was similar in trophoblastic diseases and normal placentas with strong expression in syncytiotrophoblast, moderate expression in villous intermediate trophoblast, and predominantly negative expression in implantation site intermediate trophoblast, chorionic-type intermediate trophoblast, and villous cytotrophoblast. All the nontrophoblastic tumors, including carcinomas, sarcomas, and germ cell tumors, were negative for c-mos expression. Immunohistochemical detection of c-mos is useful in differentiating choriocarcinoma from placental site trophoblastic tumor and nontrophoblastic tumors of the female genital tract that may sometimes cause problems in differential diagnosis.     

Practical management of gestational trophoblastic disease

Gestational trophoblastic disease (GTD) represents a spectrum of tumors that arise from the fetal chorion during pregnancy, including benign partial and complete hydatidiform moles, persistent invasive or metastatic moles, placental-site trophoblastic tumors, and gestational choriocarcinomas. Gestational trophoblastic diseases all exhibit proliferation of both cytotrophoblast and syncytiotrophoblast cells, with the exception of placental-site tumor, which is derived from the intermediate trophoblast cells. Practical management of these tumors begins with preoperative evaluation and screening for metastatic disease followed by uterine evacuation or hysterectomy. Postmolar GTD includes local noninvasive proliferation of molar tissue, invasive mole, or gestational choriocarcinoma. The management of malignant GTD may be directed from three classification systems developed to predict patient prognosis and guide the decision for either single or multiagent chemotherapy. These systems assess clinical risk factors in addition to sites of metastatic disease. Treatment with aggressive multiagent chemotherapy and individualized multimodality therapy is warranted in these extremely high-risk patients. After remission, patients should be followed closely for 1 year and periodically thereafter. Pregnancy is deferred and contraception instituted for 1 year to prevent disruption of serum human chorionic gonadotropin surveillance.     

Immunohistochemical localization of inhibin-alpha in the placenta and gestational trophoblastic lesions.

The immunohistochemical distribution of inhibin-alpha in formalin-fixed, paraffin-embedded tissues was evaluated in placentas (2 to 40 weeks of gestation), implantation sites, and a variety of trophoblastic lesions. In the first trimester placenta, inhibin-alpha was strongly and diffusely expressed in syncytiotrophoblast. Implantation site intermediate trophoblast in normal and exaggerated placental sites was either negative or only weakly and focally positive for inhibin-alpha. With increasing gestational age, the staining intensity and distribution of inhibin-alpha decreased in syncytiotrophoblast but increased in the implantation site intermediate trophoblast. Chorionic-type intermediate trophoblast, present in the chorion laeve of the term placenta, was weakly but diffusely positive for inhibin-alpha. Cytotrophoblast remained negative for inhibin-alpha throughout gestation. In trophoblastic lesions, inhibin-alpha immunoreactivity was detected in all 17 hydatidiform moles (7 complete and 10 partial), 32 placental site nodules, 23 placental site trophoblastic tumors, 15 epithelioid trophoblastic tumors, and 16 choriocarcinomas. Inhibin-alpha immunoreactivity was confined to the syncytiotrophoblast in hydatidiform moles and choriocarcinoma. As with the normal placenta, inhibin-alpha was not detected in cytotrophoblast. To evaluate the utility of inhibin-alpha in the differential diagnosis of gestational trophoblastic lesions, we tested 32 squamous cell carcinoma of the cervix, 11 low-grade endometrial stromal sarcomas, 12 endometrial (7 well differentiated and 5 moderately differentiated) carcinomas, 7 epithelioid leiomyomas, and 10 leiomyosarcomas for the expression of inhibin-alpha. None of these lesions was positive. These data indicate that inhibin-alpha is expressed by all populations of trophoblast except cytotrophoblast and in all gestational trophoblastic lesions. Accordingly, immunohistochemical detection of inhibin-alpha is useful in the differential diagnosis of gestational trophoblastic lesions.     

Matrix metalloproteinases and their inhibitors in gestational trophoblastic diseases and normal placenta.

OBJECTIVE: Our purpose was to investigate the expression of matrix metalloproteinases (MMPs) in gestational trophoblastic diseases and normal first-trimester placenta. METHODS: Paraffin sections of 16 partial moles, 25 complete moles, 10 gestational choriocarcinomas, and 11 normal first-trimester placentas were studied immunohistochemically for expression of MMP-1, MMP-2, MMP-3, MMP-9, MMP-13, and tissue inhibitor of metalloproteinase-1 (TIMP-1). RESULTS: Nine (90.0%) of the choriocarcinoma cases showed strong intensity of staining for MMP-1. Choriocarcinoma exhibited significantly stronger staining for MMP-1 than syncytiotrophoblast in normal placenta (P < 0.01), partial mole (P < 0.01), and complete mole (P < 0.01). Choriocarcinoma also showed significantly stronger staining for MMP-1 than the extravillous trophoblast in placenta (P < 0.05). MMP-2 was expressed only in syncytio- and extravillous trophoblasts in normal placenta, partial mole, and complete mole. Choriocarcinoma and the extravillous trophoblast in partial mole and complete mole had significantly stronger staining for MMP-2 than the extravillous trophoblast in placenta (P < 0.05, P < 0.01, P < 0.01, respectively). Choriocarcinoma also exhibited significantly stronger staining for MMP-2 than syncytiotrophoblasts in placenta (P < 0.01), partial mole (P = 0.05), and complete mole (P < 0.01). The expression of MMP-3, MMP-9, and MMP-13 was similar in all four tissues with the predominance of syncytiotrophoblast for MMP-3 and MMP-13 and cytotrophoblast for MMP-9. While 8 (73.0%) placentas, 14 (87.5%) partial moles, and 19 (76.0%) complete moles showed strong immunoreactivity for TIMP-1 in syncytiotrophoblasts, no strong staining was found in choriocarcinomas (P < 0.01, P < 0.01, P < 0.01, respectively). CONCLUSION: The extravillous trophoblast of first-trimester placenta has significantly less expression of MMP-1 than choriocarcinoma and significantly less expression of MMP-2 than choriocarcinoma and extravillous trophoblast of partial and complete mole. The expression of TIMP-1 was significantly less in choriocarcinoma than the syncytiotrophoblast of normal placenta, partial mole, and complete mole. MMPs and their inhibitors may play a role in the pathogenesis of gestational trophoblastic diseases.     

Expression pattern of the adhesion molecule CEACAM1 (C-CAM, CD66a, BGP) in gestational trophoblastic lesions.

CEACAM1 (CD66a, BGP, C-CAM) is an adhesion molecule of the carcinoembryonic antigen (CEA) family which has been shown to be normally expressed at the apical pole of epithelial cells and to show a dysregulated expression pattern in tumors derived from the latter. The purpose of the present study was to investigate the expression pattern of CEACAM1 in gestational trophoblastic lesions and to compare this expression with the one observed in the normal trophoblast. For this purpose, we performed immunohistochemistry using the 4D1/C2 monoclonal antibody which specifically recognizes CEACAM1 and does not interact with other members of the CEA family. Immunohistochemistry was performed on a total of 20 cases of gestational trophoblastic lesions including complete hydatidiform moles, one placental site trophoblastic nodule (PSN), one placental site trophoblastic tumor (PSTT), and three choriocarcinomas. Immunostaining for cytokeratin, hPL, hCG, and Ki-67 was also performed. Normal placental samples served as a control. CEACAM1 was absent from villous cyto- and syncytiotrophoblast in both normal placenta and hydatidiform molar samples. It was present in the benign extravillous trophoblast, with stronger expression in the proximal extravillous trophoblast of anchoring villi, but was also observed in interstitial and endovascular intermediate trophoblast and chorionic intermediate-like trophoblast. Partial expression was observed in the trophoblast proliferating from the surface of molar villi. In choriocarcinomas, areas of weak expression could be observed along with large areas without CEACAM1 expression. In the PSN and especially in the PSTT, CEACAM1 expression was stronger and more diffuse. The specific localization to extravillous trophoblast and its expression pattern in gestational trophoblastic lesions indicate that CEACAM1 can potentially be a helpful additional diagnostic marker in the differential diagnosis of such lesions.     

Pathology of gestational trophoblastic diseases

Gestational trophoblastic disease (GTD) is a heterogeneous group of diseases. This used to include partial and complete hydatidiform moles, invasive mole, choriocarcinoma and placental site trophoblastic tumour. In recent years, new entities, including epithelioid trophoblastic tumour, have been added to this family. Non-neoplastic and neoplastic lesions derived from implantation site and chorion intermediate trophoblast have been gaining attention in the literature. New markers for trophoblasts have been identified facilitating histological diagnosis in cases with unusual clinical or pathological features. It is worth noting that histological distinction between hydropic abortion and partial mole and between complete and partial moles, especially at early gestational age, may be difficult. It may not be possible to predict progress of the heterogeneous group of GTD from histopathological features, except probably in placental site trophoblastic tumour. Alternative biological markers may be explored for better patient management.     

p-21-Activated kinase-1, -4 and -6 and estrogen receptor expression pattern in normal placenta and gestational trophoblastic diseases

Objectives

To delineate the potential role of p21-activated kinases (PAKs) in the pathogenesis of gestational trophoblastic diseases (GTD) by defining the expression pattern of PAK-1, -4 and -6 and their potential implication in estrogen receptor (ER) regulation of normal placental tissue and GTD.

Methods

We evaluated immunohistochemically 10 normal first-trimester placentas (NP), 10 partial moles (PM), 15 complete moles (CM) and 3 choriocarcinomas (CCA) for PAK-1, PAK-4, PAK-6 and ER expression intensity and localization. Staining outcomes were assessed utilizing non-parametric Kruskal–Wallis one-way analysis of variance test followed by pairwise Wilcoxon Rank Sum tests. Statistical significance was determined by two-sided p-value of < 0.05.

Results

In NP, PAK-6 immunoreactivity was predominantly cytoplasmic. Compared to NP, PM and CM demonstrated significant increase of cytoplasmic PAK-6 in cytotrophoblast (p = 0.012, p = 0.033 respectively), accompanied by significantly increased nuclear immunoreactivity in cytotrophoblast (p = 0.008, p = 0.045 respectively) and intermediate trophoblast (p = 0.003, p = 0.015 respectively). PAK-4 was found significantly upregulated in both cytoplasmic and nuclear compartments of cytotrophoblast and syncytiotrophoblast in PM (p = 0.004 and p = 0.002 for cytotrophoblast; p = 0.018 and p = 0.002 for syncytiotrophoblast, respectively) and CM (p = 0.001 and p = 0.001 for cytotrophoblast; p = 0.002 and p = 0.001 for syncytiotrophoblast, respectively) when compared to NP, whereas PAK-1 expression was significantly reduced in the syncytiotrophoblast of PM (p = 0.025 for cytoplasm and p = 0.008 for nucleus). Nuclear expression of ER was undetectable in all stained samples.

Conclusion

Our results reveal PAK-6 upregulation in GTD compared to NP. The absence of nuclear expression of ER might stem in part from the repressive effect of PAK-6 in trophoblastic tissue.     

Carcinoembryonic antigen and related molecules in normal and transformed trophoblast

Carcinoembryonic antigen (CEA, CD66e) and CEA-related cell adhesion molecules (CEACAMs) are important mediators in remodeling of diverse human tissues, and modulators of cell proliferation and differentiation. Expression by normal and transformed trophoblast of gestational trophoblastic diseases (GTDs), isolated cytotrophoblast and choriocarcinoma cell lines is presented here. Immunocyto/histochemistry of normal placenta (n=9), invasive mole (n=8), choriocarcinoma (n=7), a placental site trophoblastic tumor, cytotrophoblast in primary culture and JAr and JEG-3 cells was performed using polyclonal anti-CEA and specific monoclonal anti-CEA antibodies. Data were analyzed and scored using Mann-Whitney Test. CEA and CEA-related molecules were identified by Western blot and immunoaffinity chromatography in JAr and JEG-3 cells and extracts of 1st and 3rd trimester of pregnancy tissue and cytotrophoblast cell lysates. CEA is expressed throughout pregnancy, in first trimester predominantly in syncytiotrophoblast, but also in villous cytotrophoblast and extravillous trophoblast. Data presented here demonstrate that CEA is significantly increased in transformed trophoblast of GTDs (p<0.05). Both cytotrophoblast in primary culture and choriocarcinoma cell lines express CEA, with staining of granular deposits in JAr and cell membrane in JEG-3. The results suggest that CEA (CD66e) and other CEA-related protein(s) could be involved in trophoblast differentiation.     

Aberrations of early trophoblast differentiation predispose to pregnancy failure: lessons from the anti-phospholipid syndrome

OBJECTIVES: The epithelium of the human placenta comprises an inner cytotrophoblast (CT) which proliferates and fuses with the outer differentiated syncytiotrophoblast (ST). Turnover has been studied focussing on second and third trimester placentas but with a paucity of data describing the normal first trimester trophoblast. The aim of this study was to compare the nuclear CT:ST ratio in normal and pathological pregnancy and thus establish the relationship between cytotrophoblast and syncytiotrophoblast nuclear number during early gestation. METHODS: Archival first trimester material from placentas from healthy pregnancy and recurrent miscarriage (anti-phospholipid syndrome) was stained with H&E, cytokeratin-7 and Mib-1. The area of trophoblast as a fraction of total villous area was calculated and the number of sectioned cytotrophoblast and syncytiotrophoblast nuclei as well as the number of proliferating cytotrophoblast was evaluated. RESULTS: Normal features of trophoblast development during the first trimester (rise in trophoblast area, increase in number of syncytiotrophoblast nuclei, increase in number of proliferating cytotrophoblast, decrease in the nuclear CT:ST ratio) are absent/reversed in tissues from recurrent miscarriage (decreasing trophoblast area, constant number of syncytiotrophoblast nuclei, decreasing number of proliferating trophoblast, constant nuclear CT:ST ratio). CONCLUSIONS: Proliferation of cytotrophoblast in early gestation provides a pool of trophoblast stem cells critical for ongoing placental development. Premature cytotrophoblast differentiation in favour of syncytial fusion results in deficiencies of cytotrophoblast and rarification of villous trophoblast. Abnormal trophoblast differentiation in early gestation may be due to a premature onset of maternal perfusion of the placenta and may be a likely antecedent for conditions associated with failure of placentation such as recurrent miscarriage.     

Ancillary Techniques to Refine Diagnosis of GTD

Gestational trophoblastic disease (GTD) consists of hyperplastic and neoplastic disorders of placental trophoblast; i.e., hydatidiform moles and gestational trophoblastic tumors, respectively. While the histological diagnosis of well-developed complete hydatidiform mole and gestational choriocarcinoma is generally accurate, significant diagnostic challenges persist in the routine evaluation of early complete hydatidiform mole, partial hydatidiform mole, placental site trophoblastic tumor, and epithelioid trophoblastic tumor. Recently, the applications of new immunohistochemical markers and molecular techniques have significantly enhanced the diagnostic accuracy of various GTDs. P57 immunohistochemistry is a highly useful marker in confirming complete hydatidiform mole, including its early forms. PCR-based short tandem repeat DNA genotyping has emerged as a powerful diagnostic measure to precisely classify both complete and partial hydatidiform moles. With highly desired sensitivity and specificity, these powerful ancillary studies should be advocated and integrated into the routine diagnostic algorithm of GTD.     

HLA expression by trophoblast of invasive moles

HLA expression by the trophoblast in invasive hydatidiform mole was analysed by immunoperoxidase staining. In the invading villi of an invasive mole, villous trophoblast, both syncytiotrophoblast and cytotrophoblast, failed to show a positive reaction for HLA-A, -B and -C and HLA-DR. By contrast, extravillous trophoblast showed an intense reaction for HLA-A, -B and -C. The distribution of HLA antigens in the invading villi was the same as in the non-invading villi, and the antigens were also indistinguishable from those noted in non-invasive hydatidiform moles. The histopathology of invasive mole may suggest that it is a malignant neoplasm. This immunohistochemical study, however, lends support to the current view that invasive mole is a variant of a benign hydatidiform mole rather than a form of malignant trophoblastic disease.     

Placental Fas and Fas ligand expression in normal early, term and molar pregnancy

To clarify the Fas and Fas-ligand status of normal and molar trophoblast, the expression of Fas and FasL by placental trophoblast populations in partial and complete hydatidiform moles was compared with that in normal first trimester and term pregnancies using an avidin-biotin peroxidase technique on frozen and formalin-fixed paraffin-embedded placental tissues with both monoclonal and polyclonal antibodies. The TUNEL technique was used to detect apoptotic cells in the same tissues. The immunoreactivity for Fas and Fas-ligand was comparable with both monoclonal and polyclonal antibodies on frozen as well as paraffin-embedded sections. In normal early and molar pregnancy there was strong FasL expression by villous cytotrophoblast and syncytiotrophoblast. However, there were significant differences in FasL expression by trophoblast subpopulations in both early and term normal pregnancy and between the same trophoblast subpopulation at different gestations, with FasL staining generally being weaker at term. Strong FasL staining by cytotrophoblast cells in the distal parts of cell columns contrasted with unstained cytotrophoblast in the proximal part of columns. Distinct trophoblast subpopulations in partial hydatidiform mole also differentially expressed FasL with reduced FasL expression in proliferating syncytiotrophoblast. In contrast there was no differential FasL expression in complete hydatidiform mole, all trophoblast subpopulations strongly expressing FasL. Unlike the differential expression of FasL there were no differences in Fas expression by trophoblast populations in normal early or term placental tissues. Fas expression was reduced in villous cytotrophoblast at term. Differential expression of Fas by different trophoblast subpopulations was noted in partial and complete hydatidiform mole. In complete mole villous cytotrophoblast and syncytiotrophoblast stained strongly compared with proliferating trophoblast. Using TUNEL labelling apoptosis was rarely detected in placental trophoblast. Differential Fas and FasL expression by trophoblast subpopulations in normal and pathological pregnancy does not appear to be related to apoptosis of trophoblast.     

Expression of trophoblast-leukocyte common antigens and placental-type alkaline phosphatase in complete molar pregnancy

The current study was undertaken to determine the localization of trophoblast-leukocyte common antigens and placental-type alkaline phosphatase in complete molar pregnancy with the use of rabbit antiserum and murine monoclonal antibodies in immunofluorescence assays. Trophoblast-leukocyte common antigens were expressed on all normal villous trophoblast (8 to 38 weeks' gestation) and on all complete moles studied. Placental-type alkaline phosphatase was not expressed on villous trophoblast before 20 weeks' gestation in either normal placentas or complete moles. In contrast, there was strong expression of placental-type alkaline phosphatase on villous trophoblast of normal placentas of more than 20 weeks' gestational age. The expression of polymorphic antigens such as trophoblast-leukocyte common antigens and placental-type alkaline phosphatase on molar trophoblast may be important in the immunobiologic features of gestational trophoblastic disease.     

Immunohistologic identification of trophoblast populations in early human pregnancy with the use of monoclonal antibodies

Three murine monoclonal antibodies (H315, H316, and NDOG1) have been used in a peroxidase-antiperoxidase technique on formalin-fixed paraffin-embedded tissues to identify populations of fetal trophoblast cells by their expression of membrane antigens in chorionic and decidual tissue from the first trimester of normal human pregnancy. H315 and H316 showed comparable staining of placental villous syncytiotrophoblast and cytotrophoblast and were also able to distinguish subpopulations of nonvillous trophoblast in the placental bed, including perivascular and endovascular trophoblastic cells as well as cytotrophoblastic elements within the decidua and myometrium. H315 and H316 also showed cytoplasmic staining of columnar epithelium of endometrial glands throughout the first trimester. In contrast, NDOG1 stained chorionic syncytiotrophoblast but not villous cytotrophoblast and also did not react with any cytotrophoblastic elements in the placental bed. NDOG1 distinguished these different subpopulations of trophoblast as early as 13 to 15 days after ovulation.     

Immunocytochemical localization of placental lactogen and chorionic gonadotropin in the normal placenta and trophoblastic tumors, with emphasis on intermediate trophoblast and the placental site trophoblastic tumor

This report presents preliminary observations on the immunocytochemical localization of human chorionic gonadotropin (hCG) and human placental lactogen (hPL) in placental site trophoblastic tumors, hydatidiform moles, and choriocarcinomas and compares the findings with those of a similar immunocytochemical analysis of the placenta at various stages of development. In addition to cytotrophoblast (CT) and syncytiotrophoblast (ST), a third form of trophoblast designated "intermediate trophoblast" (IT) is present during normal pregnancy and in trophoblastic disease. Intermediate trophoblastic cells are mononucleate, larger than CT, and contain more abundant eosinophilic cytoplasm, resulting in a partial resemblance to ST. Intermediate trophoblast has distinctive immunocytochemical features that distinguish it from CT and ST. The localization of hPL and hCG in both IT and ST varies with the age of the placenta, with the type of trophoblastic neoplasm, and from one specimen to another within each category of tumor. Syncytiotrophoblast may contain both hormones in large amounts, whereas IT contains hPL predominantly and hCG focally. Cytotrophoblast is devoid of hCG and hPL except in choriocarcinoma, which may show focal weak staining for hCG. Immunocytochemical identification of hCG and hPL has proved helpful in clarifying the histogenesis of trophoblastic neoplasms and may also be of value in establishing their diagnosis and in determining their prognosis.     

Expression pattern of the cell cycle promoter cyclin e in benign extravillous trophoblast and gestational trophoblastic lesions: correlation with expression of Ki-67.

In this study, a specific monoclonal antibody was used to immunohistochemically investigate correlated expression of the cell cycle promoter cyclin E and the proliferation marker Ki-67 in benign extravillous trophoblast and gestational trophoblastic lesions. Our data show that cyclin E is expressed in the normal extravillous trophoblast, with strongest levels of expression in the cell columns of anchoring villi. Differences could be observed in expression of Ki-67 in both normal extravillous trophoblast and gestational trophoblastic lesions. In the extravillous trophoblast of the cell columns, expression of cyclin E started more distal compared with Ki-67 and was maintained (with less intensity) into the deeper layers of interstitial trophoblast. In the benign trophoblastic lesions (exaggerated placental site [EPS] and placental site nodule [PSN]) and in the trophoblast proliferations on the surface of hydropic villi of hydatidiform moles (HM), the percentage of cells expressing cyclin E was higher than of those expressing Ki-67. The same observation could be made for a case of placental site trophoblastic tumor (PSTT). In contrast, choriocarcinomas (N=8), which are definitely malignant tumors, showed an opposite pattern, with a much higher percentage of strongly Ki-67-positive cells compared with cyclin E-positive cells. We conclude that cyclin E is expressed in benign extravillous trophoblast and gestational trophoblastic lesions, where a ratio cyclin E/Ki-67<1 characterizes choriocarcinomas, whereas PSTT and the benign lesions (HM, EPS, PSN) show expression of cyclin E in a higher percentage of cells than Ki-67 (cyclin E/Ki-67 ratio >1).     

Immunohistochemical expression analysis of inhibin-alpha and -beta subunits in partial and complete moles, trophoblastic tumors, and endometrial decidua.

The expression of inhibin-alpha subunit has been described in normal placentas, hydatidiform moles, and trophoblastic tumors. We performed a double immunohistochemical expression analysis of inhibin-alpha and inhibin-beta subunits in a cytogenetically well characterized series of 21 complete and 22 partial hydatidiform moles, 2 placental site trophoblastic tumors, and one choriocarcinoma. Syncytiotrophoblastic cells were consistently inhibin-alpha and inhibin-beta positive in all hydatidiform moles and in the one choriocarcinoma. Cytotrophoblast was negative for both subunits in all trophoblastic lesions studied. While villous intermediate trophoblastic cells were consistently inhibin-alpha negative in all hydatidiform moles, focal inhibin-beta immunoreactivity was detected in villous intermediate trophoblast in approximately one third of complete and partial hydatidiform moles. Decidual stromal cells in 40 hydatidiform moles were inhibin-alpha and inhibin-beta positive in approximately one third of cases. Both placental site trophoblastic tumors were inhibin-alpha positive but inhibin-beta negative. Our findings indicate that inhibin-alpha and -beta subunits are consistently coexpressed in syncytiotrophoblast in complete and partial moles. Immunohistochemical detection of inhibin subunits may be useful in the differential diagnosis of trophoblastic lesions.