Project description:Chlamydia trachomatis (Ctr) is able to colonize the human fallopian tube, causing scarring and inflammation, which can lead to infertility. Here we describe a chronic Ctr infection model using human fallopian tube organoids. The defense response of the organoids to infection includes active expulsion of the bacteria from the apical side of the epithelium and compensatory cellular proliferation, clearly demonstrating a role for core mechanisms of epithelial homeostasis in defense against this invading pathogen. During progression in culture for over 9 months, the population of epithelial cells underwent a permanent shift towards a more dedifferentiated state. We identify LIF signaling an essential for regulation of the stemness in the tube and formation of organoids, and report its activation triggered by Ctr . In the long term, chronic Ctr infection leads to changes in the composition of the epithelium, marked by an increase in the proportion of secretory cells, expansion of the CD24+ positive population, upregulation of SPP1 factor, as well as downregulation of inflammatory mediators CD90, CD83, and CCR7. Ctr increases hypermethylation of DNA in polycomb repressed genomic regions - indicator of accelerated molecular aging. This infection model reveals an important link between Ctr and regulation of the host epigenome and suggests that Ctr has a long-term impact on the epithelial interaction with the immune system. These permanent changes in the epithelium may be a contributing factor in the development of tubal pathologies, particularly development of high grade serous ovarian cancer (HGSOC).

Project description:Recent evidence suggests that ovarian high-grade serous carcinoma (HGSC) originates from the epithelium of the fallopian tube. However, most mouse models are based on the previous prevailing view that ovarian cancer develops from the transformation of the ovarian surface epithelium. Here, we report the extensive histological and molecular characterization of the mogp-TAg transgenic mouse, which expresses the SV40 large T-antigen (TAg) under the control of the mouse müllerian-specific Ovgp-1 promoter. Histologic analysis of the fallopian tubes of mogp-TAg mice identified a variety of neoplastic lesions analogous to those described as precursors to ovarian HGSC. We identified areas of normal appearing p53-positive epithelium that are similar to “p53 signatures” in the human fallopian tube. More advanced proliferative lesions with nuclear atypia and epithelial stratification were also identified that were morphologically and immunohistochemically reminiscent of human serous tubal intraepithelial carcinoma (STIC), a potential precursor of ovarian HGSC. Beside these noninvasive precursor lesions, we also identified invasive adenocarcinoma in the ovary of 56% of the mice. Microarray analysis revealed several genes differentially expressed between the fallopian tube of mogp-TAg and WT C57BL/6. One of these genes, Top2a, which encodes topoisomerase II-alpha, was shown by immunohistochemistry to be concurrently expressed with elevated p53 and specifically elevated in mouse STICs, but not in surrounding tissues. TOP2A protein was also found elevated in human STICs, low-grade, and high-grade serous carcinoma. The mouse model reported here displays a progression from normal tubal epithelium to invasive HGSC in the ovary, and therefore closely simulates the current emerging model of human ovarian HGSC pathogenesis. This mouse therefore has the potential to be a very useful new model for elucidating the mechanisms of serous ovarian tumorigenesis, as well as for developing novel approaches for the prevention, diagnosis, and therapy of this disease. Keywords: transgenic mouse model, ovarian cancer, fallopian tube, intraepithelial carcinoma 6 mouse fallopian tubes (FT) were analyzed with experimental repeats; 3 wildtype C57BL6 mice (FT) and 3 transgenic mogp-TAg (FT), with one set of each at 7, 8 and 9 weeks of age.

Project description:Endometriosis (EM) is a well-recognized disease that causes infertility in women of reproductive age. Tubal EM adversely affects fallopian tube function and female reproductive outcomes. Our study aimed to evaluate the effect of tubal EM on tubal epithelial ultrastructure and to explore the possible mechanisms of tubal infertility by analyzing the differential expression of exosomal microRNAs (miRNAs) in tubal fluid. We obtained human fallopian tube epithelium and tubal fluid samples from patients with and without tubal EM. We used scanning electron microscopy (SEM) and transmission electron microscopy (TEM) to assess ultrastructural changes. Exosomal miRNAs in tubal fluid were extracted for microarray. We visualized epithelial damage in the tubal EM group using electron microscopy. The number of organelles decreased, and organelle structure was destroyed. A total of 14 differentially expressed exosomal miRNAs were detected in tubal fluid (fold change >2 and P value <0.05). Four miRNAs (miR-1273f, miR-5699-5p, miR-6087, miR-6747-5p) were validated by quantitative real-time polymerase chain reaction (qRT-PCR). Bioinformatic analysis showed that most of the target genes participated in embryo transport, regulation of cell communication, anatomical structure morphogenesis, and immune system processes. We verified that tubal EM damaged the tubal epithelial ultrastructure in human specimens and identified differentially expressed exosomal miRNAs in tubal liquid. These findings may elucidate the pathogenesis of tubal EM-associated infertility.

Project description:Many high-grade serous carcinomas (HGSCs) of the pelvis are thought to originate in the distal portion of the fallopian tube. Serous tubal intraepithelial carcinoma (STIC) lesions are the putative precursor to HGSC and identifiable in ~50% of advanced stage cases. To better understand the molecular etiology of HGSCs, we report a multi-center integrated genomic analysis of advanced stage tumors with and without STIC lesions and normal tissues. The most significant focal DNA SCNAs were shared between cases with and without STIC lesions. RNA sequence and miRNA data did not identify any clear separation between cases with and without STIC lesions. HGSCs had molecular profiles more similar to normal fallopian tube epithelium than ovarian surface epithelium or peritoneum. The data suggest that the molecular features of HGSCs with and without associated STIC lesions are mostly shared, indicating a common biologic origin, likely to be the distal fallopian tube among all cases.

Project description:Many high-grade serous carcinomas (HGSCs) of the pelvis are thought to originate in the distal portion of the fallopian tube. Serous tubal intraepithelial carcinoma (STIC) lesions are the putative precursor to HGSC and identifiable in ~50% of advanced stage cases. To better understand the molecular etiology of HGSCs, we report a multi-center integrated genomic analysis of advanced stage tumors with and without STIC lesions and normal tissues. The most significant focal DNA SCNAs were shared between cases with and without STIC lesions. RNA sequence and miRNA data did not identify any clear separation between cases with and without STIC lesions. HGSCs had molecular profiles more similar to normal fallopian tube epithelium than ovarian surface epithelium or peritoneum. The data suggest that the molecular features of HGSCs with and without associated STIC lesions are mostly shared, indicating a common biologic origin, likely to be the distal fallopian tube among all cases.

Project description:Many high-grade serous carcinomas (HGSCs) of the pelvis are thought to originate in the distal portion of the fallopian tube. Serous tubal intraepithelial carcinoma (STIC) lesions are the putative precursor to HGSC and identifiable in ~50% of advanced stage cases. To better understand the molecular etiology of HGSCs, we report a multi-center integrated genomic analysis of advanced stage tumors with and without STIC lesions and normal tissues. The most significant focal DNA SCNAs were shared between cases with and without STIC lesions. RNA sequence and miRNA data did not identify any clear separation between cases with and without STIC lesions. HGSCs had molecular profiles more similar to normal fallopian tube epithelium than ovarian surface epithelium or peritoneum. The data suggest that the molecular features of HGSCs with and without associated STIC lesions are mostly shared, indicating a common biologic origin, likely to be the distal fallopian tube among all cases.

Project description:Many high-grade serous carcinomas (HGSCs) of the pelvis are thought to originate in the distal portion of the fallopian tube. Serous tubal intraepithelial carcinoma (STIC) lesions are the putative precursor to HGSC and identifiable in ~50% of advanced stage cases. To better understand the molecular etiology of HGSCs, we report a multi-center integrated genomic analysis of advanced stage tumors with and without STIC lesions and normal tissues. The most significant focal DNA SCNAs were shared between cases with and without STIC lesions. RNA sequence and miRNA data did not identify any clear separation between cases with and without STIC lesions. HGSCs had molecular profiles more similar to normal fallopian tube epithelium than ovarian surface epithelium or peritoneum. The data suggest that the molecular features of HGSCs with and without associated STIC lesions are mostly shared, indicating a common biologic origin, likely to be the distal fallopian tube among all cases.

Project description:Recent evidence suggests that ovarian high-grade serous carcinoma (HGSC) originates from the epithelium of the fallopian tube. However, most mouse models are based on the previous prevailing view that ovarian cancer develops from the transformation of the ovarian surface epithelium. Here, we report the extensive histological and molecular characterization of the mogp-TAg transgenic mouse, which expresses the SV40 large T-antigen (TAg) under the control of the mouse müllerian-specific Ovgp-1 promoter. Histologic analysis of the fallopian tubes of mogp-TAg mice identified a variety of neoplastic lesions analogous to those described as precursors to ovarian HGSC. We identified areas of normal appearing p53-positive epithelium that are similar to “p53 signatures” in the human fallopian tube. More advanced proliferative lesions with nuclear atypia and epithelial stratification were also identified that were morphologically and immunohistochemically reminiscent of human serous tubal intraepithelial carcinoma (STIC), a potential precursor of ovarian HGSC. Beside these noninvasive precursor lesions, we also identified invasive adenocarcinoma in the ovary of 56% of the mice. Microarray analysis revealed several genes differentially expressed between the fallopian tube of mogp-TAg and WT C57BL/6. One of these genes, Top2a, which encodes topoisomerase II-alpha, was shown by immunohistochemistry to be concurrently expressed with elevated p53 and specifically elevated in mouse STICs, but not in surrounding tissues. TOP2A protein was also found elevated in human STICs, low-grade, and high-grade serous carcinoma. The mouse model reported here displays a progression from normal tubal epithelium to invasive HGSC in the ovary, and therefore closely simulates the current emerging model of human ovarian HGSC pathogenesis. This mouse therefore has the potential to be a very useful new model for elucidating the mechanisms of serous ovarian tumorigenesis, as well as for developing novel approaches for the prevention, diagnosis, and therapy of this disease. Keywords: transgenic mouse model, ovarian cancer, fallopian tube, intraepithelial carcinoma

Project description:The purpose of this study was to identify molecular alterations potentially involved in predisposition to adnexal serous carcinoma (SerCa) in the non-malignant fallopian tube epithelium (FTE) of BRCA1/2-mutation carriers, given recent evidence implicating the distal FTE as a common source for SerCa. Experiment Overall Design: We obtained and compared gene expression profiles of laser capture microdissected non-malignant distal FTE from 12 known BRCA1/2-mutation carriers (FTEb) and 12 control women (FTEn) during the luteal and follicular phase, as well as 13 high grade tubal and ovarian SerCa.

Project description:Chlamydia trachomatis is the causative agent of sexually transmitted disease with the highest prevalence in the world today. Although, sensitive to antibiotic treatment, Ctr is also a major cause of infertility due to significant cell damage caused to the genital tract of affected women. Occlusion of Fallopian tubes is a frequent consequence of advanced ascending Ctr infection. So far the mechanisms of Ctr caused pathogensis are widely unclear. Here we show, by using an ex vivo infection model of human Fallopian tubes that Ctr causes changes in epithelial homeostasis within 2 days of inoculation, by disrupting cell adhesion and increasing cell proliferation. We demonstrate by imaging and expression analysis that tissue response to invading pathogen has also a paracrine component. We identify Wnt signalling activation as one of the hallmarks of Ctr infection which transmits effects of the infection beyond inclusion containing cells. Mechanisms of phenotypic changes involve up regulation of Epcam and Olfactomedin 4, biomarkers and regulators of cell adhesion and cell differentiation. Our findings bring focus to the pleiotropic effects of Ctr infection within epithelium and could be provide the basis for better understanding the pathological sequels in vivo.