Your search keyword '"Meziani, Lydia"' showing total 3 results

1. Non-homogenous intratumor ionizing radiation doses synergize with PD1 and CXCR2 blockade.

Author

Bergeron, Paul, Dos Santos, Morgane, Sitterle, Lisa, Tarlet, Georges, Lavigne, Jeremy, Liu, Winchygn, Gerbé de Thoré, Marine, Clémenson, Céline, Meziani, Lydia, Schott, Cathyanne, Mazzaschi, Giulia, Berthelot, Kevin, Benadjaoud, Mohamed Amine, Milliat, Fabien, Deutsch, Eric, and Mondini, Michele

Subjects

RADIOTHERAPY complications, IONIZING radiation, IMMUNE checkpoint proteins, RNA sequencing, FLOW cytometry

Abstract

The efficacy and side effects of radiotherapy (RT) depend on parameters like dose and the volume of irradiated tissue. RT induces modulations of the tumor immune microenvironment (TIME) that are dependent on the dose. Low dose RT (LDRT, i.e., single doses of 0.5–2 Gy) has been shown to promote immune infiltration into the tumor. Here we hypothesize that partial tumor irradiation combining the immunostimulatory/non-lethal properties of LDRT with cell killing/shrinkage properties of high dose RT (HDRT) within the same tumor mass could enhance anti-tumor responses when combined with immunomodulators. In models of colorectal and breast cancer in immunocompetent female mice, partial irradiation (PI) with millimetric precision to deliver LDRT (2 Gy) and HDRT (16 Gy) within the same tumor induces substantial tumor control when combined with anti-PD1. Using flow cytometry, cytokine profiling and single-cell RNA sequencing, we identify a crosstalk between the TIME of the differentially irradiated tumor volumes. PI reshapes tumor-infiltrating CD8+ T cells into more cytotoxic and interferon-activated phenotypes but also increases the infiltration of pro-tumor neutrophils driven by CXCR2. The combination of the CXCR2 antagonist SB225002 with PD1 blockade and PI improves tumor control and mouse survival. Our results suggest a strategy to reduce RT toxicity and improve the therapeutic index of RT and immune checkpoint combinations. Low dose-radiation therapy (LDRT) can promote anti-tumor immune responses. Here the authors propose to combine the immunostimulatory properties of LDRT with the cell killing/shrinkage properties of high dose RT within the same tumor mass as a strategy to optimize RT-induced anti-tumor immune responses. [ABSTRACT FROM AUTHOR]

Published

2024

2. COVID-19-Associated Pneumonia: Radiobiological Insights.

Author

François, Sabine, Helissey, Carole, Cavallero, Sophie, Drouet, Michel, Libert, Nicolas, Cosset, Jean-Marc, Deutsch, Eric, Meziani, Lydia, and Chargari, Cyrus

Subjects

PANDEMICS, ANGIOTENSIN converting enzyme, COVID-19 pandemic, ADULT respiratory distress syndrome, PNEUMONIA, IONIZING radiation

Abstract

The evolution of SARS-CoV-2 pneumonia to acute respiratory distress syndrome is linked to a virus-induced "cytokine storm", associated with systemic inflammation, coagulopathies, endothelial damage, thrombo-inflammation, immune system deregulation and disruption of angiotensin converting enzyme signaling pathways. To date, the most promising therapeutic approaches in COVID-19 pandemic are linked to the development of vaccines. However, the fight against COVID-19 pandemic in the short and mid-term cannot only rely on vaccines strategies, in particular given the growing proportion of more contagious and more lethal variants among exposed population (the English, South African and Brazilian variants). As long as collective immunity is still not acquired, some patients will have severe forms of the disease. Therapeutic perspectives also rely on the implementation of strategies for the prevention of secondary complications resulting from vascular endothelial damage and from immune system deregulation, which contributes to acute respiratory distress and potentially to long term irreversible tissue damage. While the anti-inflammatory effects of low dose irradiation have been exploited for a long time in the clinics, few recent physiopathological and experimental data suggested the possibility to modulate the inflammatory storm related to COVID-19 pulmonary infection by exposing patients to ionizing radiation at very low doses. Despite level of evidence is only preliminary, these preclinical findings open therapeutic perspectives and are discussed in this article. [ABSTRACT FROM AUTHOR]

Published

2021

3. Enhanced Sensitivity to Low Dose Irradiation of ApoE−/− Mice Mediated by Early Pro-Inflammatory Profile and Delayed Activation of the TGFβ1 Cascade Involved in Fibrogenesis.

Author

Monceau, Virginie, Meziani, Lydia, Strup-Perrot, Carine, Morel, Eric, Schmidt, Magret, Haagen, Julia, Escoubet, Brigitte, Dörr, Wolfgang, and Vozenin, Marie-Catherine

Subjects

*CARDIOVASCULAR disease treatment, *TRANSFORMING growth factors, *HEART disease complications, *IONIZING radiation, *RADIOTHERAPY, *FIBROSIS, *LABORATORY mice, *HISTOPATHOLOGY, *SENSITIVITY analysis, CARDIOVASCULAR disease related mortality

Abstract

Aim: Investigating long-term cardiac effects of low doses of ionizing radiation is highly relevant in the context of interventional cardiology and radiotherapy. Epidemiological data report that low doses of irradiation to the heart can result in significant increase in the cardiovascular mortality by yet unknown mechanisms. In addition co-morbidity factor such as hypertension or/and atherosclerosis can enhance cardiac complications. Therefore, we explored the mechanisms that lead to long-term cardiac remodelling and investigated the interaction of radiation-induced damage to heart and cardiovascular systems with atherosclerosis, using wild-type and ApoE-deficient mice. Methods and Results: ApoE−/− and wild-type mice were locally irradiated to the heart at 0, 0.2 and 2 Gy (RX). Twenty, 40 and 60 weeks post-irradiation, echocardiography were performed and hearts were collected for cardiomyocyte isolation, histopathological analysis, study of inflammatory infiltration and fibrosis deposition. Common and strain-specific pathogenic pathways were found. Significant alteration of left ventricular function (eccentric hypertrophy) occurred in both strains of mice. Low dose irradiation (0.2 Gy) induced premature death in ApoE−/− mice (47% died at 20 weeks). Acute inflammatory infiltrate was observed in scarring areas with accumulation of M1-macrophages and secretion of IL-6. Increased expression of the fibrogenic factors (TGF-β1 and PAI-1) was measured earlier in cardiomyocytes isolated from ApoE−/− than in wt animals. Conclusion: The present study shows that cardiac exposure to low dose of ionizing radiation induce significant physiological, histopathological, cellular and molecular alterations in irradiated heart with mild functional impairment. Atherosclerotic predisposition precipitated cardiac damage induced by low doses with an early pro-inflammatory polarization of macrophages. [ABSTRACT FROM AUTHOR]

Published

2013