1. Solitary ovarian cancer cells in the peritoneum : what happens below the surface?Laura M.C. Vos, Willemien J. van Driel, Gabe S. Sonke, Juliette O. A. M. van Baal, Koen K. van de Vijver, Cornelis J. F. van Noorden, Christianne A. R. Lok, 2022, original scientific article Abstract: Background
In advanced epithelial ovarian cancer (EOC), the peritoneum is the primary site of disease recurrence which occurs in >75% of patients despite complete cytoreductive surgery (CRS) and chemotherapy. Macroscopically undetectable remaining cancer cells are deemed to be a source for recurrent disease. We investigated characteristics of occult disease in biopsies of macroscopically normal peritoneum during CRS.
Materials and methods
We included 14 patients with advanced stage high grade serous ovarian cancer (HGSOC). Eleven patients had received neoadjuvant chemotherapy (NACT) and three patients were chemotherapy naïve. Each patient underwent three study-related peritoneal biopsies: 1) of a metastasis, 2) adjacent to a metastasis and 3) at distance from metastases. Cryostat sections were immunohistochemically stained for PAX8 and PanCK as markers of EOC cells and for CD31 as a marker for vascular and lymphatic endothelium. The sections were analyzed semi-quantitatively.
Results
Macroscopically normal peritoneum showed solitary PAX8-positive cells adjacent to and at distance from metastases in all patients. Thirteen percent of these PAX8-positive cells were found to be attached to the mesothelium and are presumably spread through intra-abdominal fluid. Eighty-seven percent of the solitary PAX8-positive cells were found in the stroma underneath the mesothelium, of which 59% were firmly attached to endothelium and 33% were found in the stroma. In most cases, no sign of proliferation of the solitary cells was observed. Only a few clusters of PAX8-positive cells were found. Chemotherapy did not affect these results.
Conclusions
Solitary PAX8-positive cells are present in the macroscopically healthy-looking peritoneum of all EOC patients investigated, irrespective of the distance to macroscopically-visible metastases and of previous treatment. The majority of these solitary cancer cells were attached to endothelium of capillaries, venules or lymphatic vessels. Their solitary character and lack of proliferation suggests a dormant state, which could explain why these cells are unaffected by neo-adjuvant chemotherapy.
Keywords: ovarian cancer, peritoneal metastasis, translational medical research, human pathology, PAX8, cancer recurrence
Published in DiRROS: 26.02.2025; Views: 181; Downloads: 123
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2. Angiogenesis in gynecological cancers and the options for anti-angiogenesis therapyBahar Yetkin-Arik, Arnoud W. Kastelein, Ingeborg Klaassen, Charlotte H. J. R. Jansen, Yani P. Latul, Miloš Vittori, Aydan Biri, Korhan Kahraman, Arjan W. Griffioen, Frederic Amant, Christianne A. R. Lok, Reinier O. Schlingemann, Cornelis J. F. van Noorden, 2021, review article Abstract: Angiogenesis is required in cancer, including gynecological cancers, for the growth of primary tumors and secondary metastases. Development of anti-angiogenesis therapy in gynecological cancers and improvement of its efficacy have been a major focus of fundamental and clinical research. However, survival benefits of current anti-angiogenic agents, such as bevacizumab, in patients with gynecological cancer, are modest. Therefore, a better understanding of angiogenesis and the tumor microenvironment in gynecological cancers is urgently needed to develop more effective anti-angiogenic therapies, either or not in combination with other therapeutic approaches. We describe the molecular aspects of (tumor) blood vessel formation and the tumor microenvironment and provide an extensive clinical overview of current anti-angiogenic therapies for gynecological cancers. We discuss the different phenotypes of angiogenic endothelial cells as potential therapeutic targets, strategies aimed at intervention in their metabolism, and approaches targeting their (inflammatory) tumor microenvironment.
Keywords: angiogenesis, anti-angiogenic therapy, endothelial cells, endothelial cell metabolism, gynecological cancer, non-tip cells, tip cells, tumor microenvironment, vascular disrupting agents
Published in DiRROS: 05.08.2024; Views: 486; Downloads: 302
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3. Poor perfusion of the microvasculature in peritoneal metastases of ovarian cancerArnoud W. Kastelein, Laura M.C. Vos, Juliette O. A. M. van Baal, Jasper J. Koning, Vashendriya V. V. Hira, Rienk Nieuwland, Willemien J. van Driel, Zühre Uz, Thomas M van Gulik, Jacco van Rheenen, Can Ince, Jan-Paul W.R. Roovers, Cornelis J. F. van Noorden, Christianne A. R. Lok, 2020, original scientific article Abstract: Most women with epithelial ovarian cancer (EOC) suffer from peritoneal carcinomatosis upon first clinical presentation. Extensive peritoneal carcinomatosis has a poor prognosis and its pathophysiology is not well understood. Although treatment with systemic intravenous chemotherapy is often initially successful, peritoneal recurrences occur regularly. We hypothesized that insufficient or poorly-perfused microvasculature may impair the therapeutic efficacy of systemic intravenous chemotherapy but may also limit expansive and invasive growth characteristic of peritoneal EOC metastases. In 23 patients with advanced EOC or suspicion thereof, we determined the angioarchitecture and perfusion of the microvasculature in peritoneum and in peritoneal metastases using incident dark field (IDF) imaging. Additionally, we performed immunohistochemical analysis and 3-dimensional (3D) whole tumor imaging using light sheet fluorescence microscopy of IDF-imaged tissue sites. In all metastases, microvasculature was present but the angioarchitecture was chaotic and the vessel density and perfusion of vessels was significantly lower than in unaffected peritoneum. Immunohistochemical analysis showed expression of vascular endothelial growth factor and hypoxia inducible factor 1α, and 3D imaging demonstrated vascular continuity between metastases and the vascular network of the peritoneum beneath the elastic lamina of the peritoneum. We conclude that perfusion of the microvasculature within metastases is limited, which may cause hypoxia, affect the behavior of EOC metastases on the peritoneum and limit the response of EOC metastases to systemic treatment.
Keywords: microvasculature, microcirculation, EOC, peritoneal carcinomatosa, incident dark feld imaging
Published in DiRROS: 23.07.2024; Views: 536; Downloads: 318
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