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IMP3 as a cytoplasmic biomarker for early serous tubal carcinogenesisWang, Yiying, Li, Lingmin, Wang, Yue, Yuan, Zeng, Zhang, Wenjing, Hatch, Kenneth, Zheng, Wenxin January 2014 (has links)
BACKGROUND:Serous tubal intraepithelial carcinoma (STIC) and the p53 signature in tubal mucosa have been supported to be precursor lesions in high-grade serous carcinoma (HGSC) of the fallopian tube, ovary, and peritoneum. It remains critical to find biomarkers for precursor lesions in order to detect HGSCs efficiently. IMP3 is an oncoprotein that has been explored in human malignancies. No studies have specifically addressed the expression of IMP3 in precursor or early lesions of HGSC. The main purposes of this study are to evaluate if IMP3 plays any role in the process of pelvic serous carcinogenesis by examining its expression in HGSC precursor lesions, to examine the relationship between IMP3 and p53 in those precursor lesions, and to check if IMP3 can be used as a biomarker for early diagnosis.METHODS:Immunohistochemistry for IMP3 and p53 was performed and evaluated in 48 HGSCs with STIC, 62 HGSCs without STIC, and 60 benign cases as negative controls. Sections of fallopian tubes with or without STIC , as well as cancers within the ovaries, were studied. IMP3 signature was defined as strong IMP3 cytoplasmic staining in 10 or more consecutive benign-looking tubal epithelial cells. The relationship between IMP3 and p53 overexpression was examined.RESULTS:In the 48 HGSC patients with STIC, IMP3 was positive in 46% of STIC lesions and had a similar positive rate in the invasive components of HGSC. IMP3 was also expressed in normal appearing tubal epithelia (IMP3 signature) in 15 (31%) of 48 HGSC cases with STIC and 10 (16%) of 62 cases without STIC. In contrast, no single IMP3 signature was found in the benign control group. Concordant expression of IMP3 and p53 signatures in the STIC group was found in up to one-third of the cases. There were also five (10%) STIC cases with positive IMP3 and negative p53.CONCLUSIONS:We conclude that IMP3 may be involved in the process and progression of pelvic HGSC and may serve as a complimentary biomarker in diagnosing STIC.
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Cytologic studies of the fallopian tube in patients undergoing salpingo-oophorectomyChen, Hao, Klein, Robert, Arnold, Stacy, Chambers, Setsuko, Zheng, Wenxin 01 October 2016 (has links)
Background: Mounting evidence suggests the fallopian tube as the origin for ovarian high grade serous carcinoma (HGSC). We attempted to identify the tubal cytological features that allow us to distinguish malignant from benign conditions. Methods: Tubal specimens (n = 56) were collected from patients who underwent bilateral salpingo-oophorectomy (BSO) due to various clinical indications. A standard procedure to collect fallopian tube brushings from freshly received surgical specimens was developed. Cytological diagnoses were classified into three categories: benign, atypical, and suspicious for malignancy/malignant. Cytological variables of individual cells and epithelia were subjected to statistical analysis. The fallopian tube histology was used as diagnostic reference for confirmation of cytology diagnosis. Results: Among the 56 fallopian tube specimens, 2 (3.7 %) showed inadequate cellularity preventing further evaluation, 11 (20.4 %) were diagnosed as malignant or suspicious of malignancy, 7 were atypical, and 36 were benign. The presence of three dimensional clusters (p < 0.0001, Fisher's Exact Test), or prominent nucleoli (p = 0.0252, Fisher Exact test) was highly correlated with the diagnosis of malignancy. The suspicious malignant/malignant cytological diagnosis was also highly correlated with presence of HGSC with or without serous tubal intraepithelial carcinoma (STIC). Conclusions: Tubal cytology may be useful for ovarian cancer screening and early detection.
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The inflammatory infiltrate of high-grade serous carcinoma omental metastasisEveritt, Gemma Louise Ann January 2014 (has links)
The aim of this thesis is to investigate the role of inflammatory infiltrates and chemokines in metastasis of high-grade serous ovarian cancer, HGSC, to the omentum using human tissue biopsies and a 3- dimensional (3D) cell culture model. In ten patients with metastatic HGSC, omental tumour deposits contained a prominent leukocyte infiltrate of CD3+ T cells (9% of total cells) and CD68+ macrophages (11% of total cells). The presence of CD68+ macrophages showed a significant positive correlation with tumour cell proliferation analysed by Ki67 expression. Four ovarian cancer cell lines were co-cultured on a 3D model mimicking the microenvironment of the omentum for two weeks. The model was composed of collagen embedded human fibroblasts covered in a confluent layer of human primary mesothelial cells. The mesothelial cells in the 3D model significantly increased the growth (p = 0.002) and invasion (p = 0.0004) of the ovarian cancer cells. CXCL12 is the macrophage chemoattractant and ligand for the major chemokine receptor expressed on ovarian cancer cells. An association between CXCL12 and extracellular matrix remodelling was identified in two independent gene expression microarrays of ovarian cancer biopsies. The expression of CXCL12 in the HGSC omental metastases measured by quantitative Real Time-PCR positively correlated with decorin expression. Antibody mediated neutralisation of CXCL12 reduced growth (p = 0.012) and invasion (p = 0.029) in the 3D model. Mimicking an infiltrate of CD68+ macrophages in this multicellular 3D in vitro system also produced measurable changes in inflammatory cytokine and chemokine expression. There is currently a demand for more accurate models of HGSC and a necessity to study its metastasis that presents itself as the major clinical problem in patients. Therefore the development of this 3D model to mimic tumour-promoting inflammation in HGSC metastasis will provide researchers with an essential tool for testing novel therapeutic strategies.
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Suppression of ABHD2, identified through a functional genomics screen, causes anoikis resistance, chemoresistance and poor prognosis in ovarian cancer. / 機能的ゲノミクススクリーンにより同定した因子ABHD2の発現低下は、卵巣癌のアノイキス抵抗性、化学療法抵抗性をもたらし、予後不良につながるYamanoi, Kouji 25 September 2017 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20662号 / 医博第4272号 / 新制||医||1024(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 武藤 学, 教授 松田 道行, 教授 原田 浩 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
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Characterizing the Impact of Specific Genetic Mutations on Chemotherapy Resistance and the Efficacy of Oncolytic Viruses for the Treatment of Ovarian CancerCudmore, Alison 17 November 2022 (has links)
Epithelial ovarian cancer (EOC) is the most lethal gynecologic cancer and urgently requires new therapies. Oncolytic viruses (OV) are a strong contender. OVs interact with immune components of the TME, which can be altered due to specific genetic mutations. The present study evaluates the impact of specific tumour mutations on the response to carboplatin, the current standard of care, and VSV∆M51, a promising OV candidate. After a study of genetically diverse models, constitutive KRas activation enhanced VSV∆M51 replication in-vitro and sensitivity in syngeneic in-vivo models. VSV∆M51 prolonged survival in syngeneic tumour- bearing mice with KRas, Trp53 and Pten mutations, including one tumour model that did not respond to carboplatin. Response to VSV∆M51 in-vivo was associated with activation of CD4+ and CD8+ T lymphocytes in the peritoneal TME. In summary, VSV∆M51-based immunotherapy has shown promise in diverse murine models of EOC bearing clinically relevant mutations.
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Characterisation of the tumour microenvironment in ovarian cancerJiménez Sánchez, Alejandro January 2019 (has links)
The tumour microenvironment comprises the non-cancerous cells present in the tumour mass (fibroblasts, endothelial, and immune cells), as well as signalling molecules and extracellular matrix. Tumour growth, invasion, metastasis, and response to therapy are influenced by the tumour microenvironment. Therefore, characterising the cellular and molecular components of the tumour microenvironment, and understanding how they influence tumour progression, represent a crucial aim for the success of cancer therapies. High-grade serous ovarian cancer provides an excellent opportunity to systematically study the tumour microenvironment due to its clinical presentation of advanced disseminated disease and debulking surgery being standard of care. This thesis first presents a case report of a long-term survivor (>10 years) of metastatic high-grade serous ovarian cancer who exhibited concomitant regression/progression of the metastatic lesions (5 samples). We found that progressing metastases were characterized by immune cell exclusion, whereas regressing metastases were infiltrated by CD8+ and CD4+ T cells. Through a T cell - neoepitope challenge assay we demonstrated that pre- dicted neoepitopes were recognised by the CD8+ T cells obtained from blood drawn from the patient, suggesting that regressing tumours were subjected to immune attack. Immune excluded tumours presented a higher expression of immunosuppressive Wnt signalling, while infiltrated tumours showed a higher expression of the T cell chemoattractant CXCL9 and evidence of immunoediting. These findings suggest that multiple distinct tumour immune microenvironments can co-exist within a single individual and may explain in part the hetero- geneous fates of metastatic lesions often observed in the clinic post-therapy. Second, this thesis explores the prevalence of intra-patient tumour microenvironment het- erogeneity in high-grade serous ovarian cancer at diagnosis (38 samples from 8 patients), as well as the effect of chemotherapy on the tumour microenvironment (80 paired samples from 40 patients). Whole transcriptome analysis and image-based quantification of T cells from treatment-naive tumours revealed highly prevalent variability in immune signalling and distinct immune microenvironments co-existing within the same individuals at diagnosis. ConsensusTME, a method that generates consensus immune and stromal cell gene signatures by intersecting state-of-the-art deconvolution methods that predict immune cell populations using bulk RNA data was developed. ConsensusTME improved accuracy and sensitivity of T cell and leukocyte deconvolutions in ovarian cancer samples. As previously observed in the case report, Wnt signalling expression positively correlated with immune cell exclusion. To evaluate the effect of chemotherapy on the tumour microenvironment, we compared site-matched and site-unmatched tumours before and after neoadjuvant chemotherapy. Site- matched samples showed increased cytotoxic immune activation and oligoclonal expansion of T cells after chemotherapy, unlike site-unmatched samples where heterogeneity could not be accounted for. In addition, low levels of immune activation pre-chemotherapy were found to be correlated with immune activation upon chemotherapy treatment. These results cor- roborate that the tumour-immune interface in advanced high-grade serous ovarian cancer is intrinsically heterogeneous, and that chemotherapy induces an immunogenic effect mediated by cytotoxic cells. Finally, the different deconvolution methods were benchmarked along with ConsensusTME in a pan-cancer setting by comparing deconvolution scores to DNA-based purity scores, leukocyte methylation data, and tumour infiltrating lymphocyte counts from image analysis. In so far as it has been benchmarked, unlike the other methods, ConsensusTME performs consistently among the top three methods across cancer-related benchmarks. Additionally, ConsensusTME provides a dynamic and evolvable framework that can integrate newer de- convolution tools and benchmark their performance against itself, thus generating an ever updated version. Overall, this thesis presents a systematic characterisation of the tumour microenvironment of high grade serous ovarian cancer in treatment-naive and chemotherapy treated samples, and puts forward the development of an integrative computational method for the systematic analysis of the tumour microenvironment of different tumour types using bulk RNA data.
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Dissection moléculaire de la sénescence cellulaire induite par le stress et la thérapie dans le cancer de l’ovaire et son impact sur la réponse des patientesCalvo Gonzalez, Llilians 09 1900 (has links)
Le cancer de l’ovaire (COv) est le cancer gynécologique le plus létal chez la femme et les
traitements existants, chirurgie et chimiothérapie, ont peu évolué au cours des dernières
décennies. Nous proposons que la compréhension des différents destins cellulaires tels
que la sénescence que peuvent choisir les cellules du cancer de l’ovaire en réponse à la
chimiothérapie pourrait conduire à de nouvelles opportunités thérapeutiques. La
sénescence cellulaire a été largement associée à l’activité de la protéine TP53, qui est
mutée dans plus de 90% des cas de cancer de l’ovaire séreux de haut grade (COv-SHG),
la forme la plus commune de la maladie. Dans nos travaux, à partir d’échantillons dérivés
de patientes, nous montrons que les cultures primaires du cancer de l’ovaire séreux de
haut grade exposées au stress ou à des drogues utilisées en chimiothérapie entrent en
senescence grâce à l’activité d’un isoforme du gène CDKN2A (p16INK4A). Dans ces
cellules, nous avons évalué les caractéristiques fondamentales de la sénescence cellulaire
tels que les altérations morphologiques, l’activité béta galactosidase associée à la
sénescence, les dommages à l’ADN, l’arrêt du cycle cellulaire et le phénotype sécrétoire
associé à la sénescence. En utilisant des micromatrices tissulaires construites à partir
d’échantillons humains de COv-SHG pré- et post-chimiothérapie, accompagnées de leurs
données cliniques, nous avons quantifié des marqueurs de sénescence incluant une
diminution de la prolifération cellulaire quelques semaines après chimiothérapie. De
façon intéressante, l’expression de p16INK4A dans les échantillons de COv-SHG
prétraitement corrèle avec une survie prolongée des patientes suite au traitement. Ceci
suggère ainsi pour la première fois un impact biologique bénéfique pour la présence de
cellules cancéreuses qui sont capable d’activer la sénescence, particulièrement pour le
traitement du cancer de l’ovaire. Dans le but de complémenter les thérapies actuelles avec
des approches de manipulation pharmacologique de la sénescence, nos résultats
suggèrent qu’il serait important de déterminer l’impact positif ou négatif de la sénescence
induite par la thérapie sur la progression de la maladie et la survie, pour chaque type de
cancer de façon indépendante. / Human ovarian cancer (OvCa) is the deadliest gynecologic malignancy and existing
surgical/chemotherapeutic treatment options have been relatively static for decades. We
propose that understanding OvCa cell fate decisions taken in response to chemotherapy
could guide new therapeutic opportunities. Damage-induced cellular senescence is often
associated with TP53 activity, which is heavily mutated in high grade serous (HGS)
OvCa (>90%), the most common form of this disease. Here, using patient derived tissues,
we show that primary HGS-OvCa cultures predominantly trigger CDKN2A- associated
(p16INK4A isoform) senescence following exposure to stress or chemotherapy. Key
senescence hallmarks including altered morphology, senescence-associated-Betagalactosidase,
DNA damage, cell cycle arrest and the senescence-associated secretory
phenotype were evaluated and detected in damaged cells. Using tissue microarrays built
from pre- and post-treatment human HGS-OvC tissue samples with accompanying
clinical data, we quantified post-treatment hallmarks of senescence including reduced cell
proliferation weeks after chemotherapy. Importantly, p16INK4A expression in pretreatment
HGS-OvC samples correlated with increased patients survival, suggesting for
the first time that senescence-competence in human cancer cells may have a beneficial
impact on treatment outcomes for patients. In order to guide the potential improvement of
existing human therapies via pharmacological senescence manipulation, our results
suggests that it is important to determine for many types of human cancer whether
treatment-induced senescence positively or negatively impacts disease progression and
patient survival.
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Role of zinc transporter LIV-1 protein in high-grade serous ovarian cancerAlrubaish, Sarah 08 1900 (has links)
No description available.
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Identification and characterization of tumor-specific antigens for ovarian cancer immunotherapyZhao, Qingchuan 04 1900 (has links)
Le carcinome séreux de haut grade (CSHG) est le sous-type histologique le plus courant du cancer de l'ovaire et demeure le cancer le plus meurtrier de l'appareil reproducteur féminin. Les récents progrès de l'immunothérapie contre le cancer ont mis en évidence un énorme potentiel thérapeutique pour les patientes confrontées à des besoins non satisfaits de soins de santé pour le traitement des CSHG. Une étape cruciale pour le développement de nouvelles stratégies thérapeutiques consiste à identifier les antigènes spécifiques des tumeurs (TSA), c’est-à-dire des antigènes majeurs d'histocompatibilité de classe I présents à la surface des cellules cancéreuses mais absents des cellules normales. Ces TSA peuvent être reconnus par les cellules T et sont des éléments essentiels dans la conception de vaccins destinés à stimuler les réponses immunitaires anticancéreuses.
Les travaux menés dans le cadre de mon programme de doctorat ont porté sur l'identification et la caractérisation des TSAs dans les CSHG. Les premières études sur les TSAs ont été dirigées uniquement vers l’identification de TSAs dérivés de mutations dans les régions codantes, menant à l’identification d’antigènes très rares et privés dans les CSHG. Dans notre première étude, nous avons analysé 23 échantillons de cancer de l'ovaire en utilisant une approche protéogénomique nous permettant d'étudier à la fois les régions génomiques codantes et non codantes. Ce faisant, nous avons identifié un total de 103 TSAs, dont 91 qui ne portaient pas de mutations et dérivaient de séquences présumées non-codantes. Nous appelons ces antigènes « TSAs exprimés de manière aberrante (aeTSAs) » puisqu’ils sont exprimés de manière aberrante dans les échantillons de cancer mais absents dans les tissus normaux. Contrairement aux TSAs mutés, qui sont davantage patient- spécifiques, l’ARN codant pour les aeTSAs est exprimé par plusieurs patientes atteints d’un CSHG, celles-ci exprimant individuellement une médiane de 5 aeTSAs. De par leur nombre élevé et du fait que leur expression soit partagée dans une large population de patientes atteints de CSHG, les aeTSAs représentent des cibles intéressantes pour l'immunothérapie du cancer.
En raison de leur origine principalement non codante, la nature et la régulation des aeTSAs sont peu connues. Notre seconde étude a donc porté sur la régulation de la biogenèse des aeTSAs. L’analyse de données de séquençage de l'ARN de CSHG en cellule unique a montré une expression enrichie et spécifique des gènes sources des aeTSAs dans les cellules cancéreuses. Grâce à une analyse transcriptomique plus poussée, nous avons identifié de nouveaux transcrits récurrents codant pour les aeTSAs et avons déterminé que ces transcrits sont largement surexprimés dans les CSHG. De plus, nous avons déterminé que les aeTSAs issus d'événements de traduction non canonique sont codés préférentiellement par des cadres de lecture ouverts courts et générés à partir de régions près de l'extrémité C-terminale. Finalement, nos analyses sur l'accessibilité de la chromatine et les modifications des histones supportent l’hypothèse que les transcrits codant pour les aeTSAs ont recourt à des promoteurs alternatifs, ce qui suggère un rôle important de l'épigénome du cancer dans la genèse du paysage antigénique.
Nos travaux représentent la première analyse complète des antigènes provenant des régions codantes et non codantes dans les tumeurs ovariennes. Nous avons pu dresser une liste exhaustive de cibles thérapeutiques potentielles et mieux comprendre leur biogenèse. Nos travaux portant sur la découverte et la caractérisation des aeTSAs favoriseront la conception de nouvelles immunothérapies ciblant ces antigènes et ce qui sera bénéfique pour un plus grand nombre de patientes atteintes de CSHG. / High-grade serous carcinoma (HGSC) is the most common histologic subtype of ovarian cancer and the most lethal cancer in the female reproductive system. Recent advances in cancer immunotherapy have highlighted enormous therapeutical potential for patients facing unmet clinical needs in HGSC treatment. A crucial step for developing new therapeutic strategies is identifying targetable tumor-specific antigens (TSAs), namely the major histocompatibility class I antigens presented on the cancer cell surface but absent from normal cells. These TSAs can be recognized by T cells and are essential elements in designing vaccines to stimulate anti-cancer immune responses.
The goal of my Ph.D. thesis was to identify and characterize TSAs in HGSC. In early studies of TSAs, most groups focused solely on TSAs derived from mutations in coding regions, which reported very rare and private antigens in HGSCs. In our first study, we used a proteogenomic workflow that enabled us to survey both coding and noncoding sequences to analyse 23 ovarian cancer samples. We uncovered 103 TSAs, 91 of which were not mutated and derived mainly from allegedly noncoding sequences. We call these antigens aberrantly expressed TSAs (aeTSAs), for their lack of expression in normal tissues while being aberrantly expressed in cancer samples. Unlike the mutated TSAs unique to individual tumors, the aeTSAs have shared RNA expression in HGSC tumors, with an estimated median presentation of five per patient. Because of their number and shared expression in a large population, we consider aeTSAs attractive targets for immunotherapy.
Due to their primarily noncoding origin, little is known about the nature and regulation of aeTSAs. In our second study, we explored the biogenesis of the aeTSAs. HGSC single-cell RNA sequencing data showed a malignant cell-specific/enriched expression of aeTSA source genes. Further transcriptomic profiling identified novel recurrent transcripts coding for aeTSAs and revealed broad overexpression of aeTSA-coding transcripts in HGSC. Moreover, we showed that aeTSAs derived from noncanonical translation events are coded preferably by short open reading frames and generated from regions close to the C-terminus. Our analysis of chromatin accessibility and histone modifications support a differential promoter activity for aeTSA-coding transcripts, suggesting an important role of cancer epigenome in shaping the antigen landscape.
Our work is the first comprehensive analysis of ovarian tumor antigens derived from both coding and noncoding regions. We reported an extensive list of potential therapeutic targets and provided insights into their biogenesis. Our work on discovering and characterizing shared TSAs shall promote the design of new antigen-targeting immunotherapy that benefits more HGSC patients.
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Implication des inhibiteurs de PARP dans le cancer de l’ovaireFleury, Hubert 05 1900 (has links)
No description available.
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