Your search keyword '"Maureen Labbé"' showing total 4 results

1. Loss of miR-200c-3p promotes resistance to radiation therapy via the DNA repair pathway in prostate cancer

Author

Maureen Labbé, Manon Chang, Benjamin Saintpierre, Franck Letourneur, Laurence de Beaurepaire, Joëlle Véziers, Sophie Deshayes, Marine Cotinat, Jean-François Fonteneau, Christophe Blanquart, Vincent Potiron, Stéphane Supiot, and Delphine Fradin

Subjects

Cytology, QH573-671

Abstract

Abstract Radiotherapy represents a major curative treatment for prostate cancer (PCa), but some patients will develop radioresistance (RR) and relapse. The underlying mechanisms remain poorly understood, and miRNAs might be key players in the acquisition and maintenance of RR. Through their encapsulation in small extracellular vesicles (EVs), they can also be relevant biomarkers of radiation response. Using next-generation sequencing, we found that miR-200c-3p was downregulated in PCa RR cells and in their small EVs due to a gain of methylation on its promoter during RR acquisition. We next showed that its exogenous overexpression restores the radiosensitivity of RR cells by delaying DNA repair through the targeting of HP1α. Interestingly, we also observed downregulation of miR-200c-3p expression by DNA methylation in radiation-resistant lung and breast cancer cell lines. In summary, our study demonstrates that the downregulation of miR-200c-3p expression in PCa cells and in their small EVs could help distinguish radioresistant from sensitive tumor cells. This miRNA targets HP1α to delay DNA repair and promote cell death.

Published

2024

2. TP53 mutations correlate with the non‐coding RNA content of small extracellular vesicles in melanoma

Author

Maureen Labbé, Estelle Menoret, Franck Letourneur, Benjamin Saint‐Pierre, Laurence deBeaurepaire, Joëlle Veziers, Brigitte Dreno, Marc G. Denis, Christophe Blanquart, Nicolas Boisgerault, Jean‐François Fonteneau, and Delphine Fradin

Subjects

long non‐coding RNA, microRNA, Small extracellular vesicle, TP53 mutations, Cytology, QH573-671

Abstract

Abstract Non‐coding RNAs (ncRNAs) are important regulators of gene expression. They are expressed not only in cells, but also in cell‐derived extracellular vesicles (EVs). The mechanisms controlling their loading and sorting remain poorly understood. Here, we investigated the impact of TP53 mutations on the non‐coding RNA content of small melanoma EVs. After purification of small EVs from six different patient‐derived melanoma cell lines, we characterized them by small RNA sequencing and lncRNA microarray analysis. We found that TP53 mutations are associated with a specific micro and long non‐coding RNA content in small EVs. Then, we showed that long and small non‐coding RNAs enriched in TP53 mutant small EVs share a common sequence motif, highly similar to the RNA‐binding motif of Sam68, a protein interacting with hnRNP proteins. This protein thus may be an interesting partner of p53, involved in the expression and loading of the ncRNAs. To conclude, our data support the existence of cellular mechanisms associate with TP53 mutations which control the ncRNA content of small EVs in melanoma.

Published

2023

3. microRNAs identified in prostate cancer: Correlative studies on response to ionizing radiation

Author

Maureen Labbé, Christianne Hoey, Jessica Ray, Vincent Potiron, Stéphane Supiot, Stanley K. Liu, and Delphine Fradin

Subjects

microRNA, prostate cancer, radiotherapy, radiation resistance, biomarkers, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract As the most frequently diagnosed non-skin cancer in men and a leading cause of cancer-related death, understanding the molecular mechanisms that drive treatment resistance in prostate cancer poses a significant clinical need. Radiotherapy is one of the most widely used treatments for prostate cancer, along with surgery, hormone therapy, and chemotherapy. However, inherent radioresistance of tumor cells can reduce local control and ultimately lead to poor patient outcomes, such as recurrence, metastasis and death. The underlying mechanisms of radioresistance have not been fully elucidated, but it has been suggested that miRNAs play a critical role. miRNAs are small non-coding RNAs that regulate gene expression in every signaling pathway of the cell, with one miRNA often having multiple targets. By fine-tuning gene expression, miRNAs are important players in modulating DNA damage response, cell death, tumor aggression and the tumor microenvironment, and can ultimately affect a tumor’s response to radiotherapy. Furthermore, much interest has focused on miRNAs found in biofluids and their potential utility in various clinical applications. In this review, we summarize the current knowledge on miRNA deregulation after irradiation and the associated functional outcomes, with a focus on prostate cancer. In addition, we discuss the utility of circulating miRNAs as non-invasive biomarkers to diagnose, predict response to treatment, and prognosticate patient outcomes.

Published

2020

4. Interaction Between Modern Radiotherapy and Immunotherapy for Metastatic Prostate Cancer

Author

Luc Ollivier, Maureen Labbé, Delphine Fradin, Vincent Potiron, and Stéphane Supiot

Subjects

radiotherapy, immunotherapy, prostate cancer, metastasis, treatment combination, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Prostate cancer is the most frequently diagnosed cancer in men and a leading cause of cancer-related death. In recent decades, the development of immunotherapies has resulted in great promise to cure metastatic disease. However, prostate cancer has failed to show any significant response, presumably due to its immunosuppressive microenvironment. There is therefore growing interest in combining immunotherapy with other therapies able to relieve the immunosuppressive microenvironment. Radiation therapy remains the mainstay treatment for prostate cancer patients, is known to exhibit immunomodulatory effects, depending on the dose, and is a potent inducer of immunogenic tumor cell death. Optimal doses of radiotherapy are thus expected to unleash the full potential of immunotherapy, improving primary target destruction with further hope of inducing immune-cell-mediated elimination of metastases at distance from the irradiated site. In this review, we summarize the current knowledge on both the tumor immune microenvironment in prostate cancer and the effects of radiotherapy on it, as well as on the use of immunotherapy. In addition, we discuss the utility to combine immunotherapy and radiotherapy to treat oligometastatic metastatic prostate cancer.

Published

2021