Nathalie | Cancer research | Women Researcher Award

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Dr. Nathalie – Cancer research – Women Researcher Award

Alignment with Award Category

Dr. Mazure’s groundbreaking research in cancer biology, particularly her work on metabolic shifts in cancer cells and the molecular mechanisms of cell death resistance, aligns perfectly with the award category recognizing excellence in scientific research in the field of cancer biology. Her contributions to understanding cancer metabolism, hypoxia, and the role of primary cilia in tumor survival have had far-reaching implications for cancer treatment and drug development.

 

CNRS | France

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🎓Early Academic Pursuits 

Education and Training

Nathalie Mazure was born on July 8, 1966, in Issy-les-Moulineaux, France. Her academic journey began with a strong foundation in biological sciences. She earned her PhD in 1994 from the University of Technology of Compiègne, focusing on microbial genetics. This early research sparked her passion for exploring the molecular mechanisms underlying cellular functions, which would later become the central theme of her academic and professional pursuits.

💼Professional Endeavors 

Academic Positions

Dr. Mazure’s career spans multiple academic and research positions, primarily centered around cancer research, molecular biology, and cellular metabolism. Since January 2024, she has been co-directing Team 5 “Cancer, Metabolism and Microenvironment” at the Institut C3M (INSERM U1065) and the University of Nice-Sophia Antipolis. Her research theme focuses on critical areas such as cancer, cell death resistance, hypoxia, and the role of VDAC1 and primary cilium in these processes.

📚Contributions and Research Focus on Cancer research

Dr. Mazure’s research has been pivotal in exploring the molecular mechanisms involved in cancer progression, particularly in how tumor cells survive in low-oxygen (hypoxic) environments. Her work on VDAC1, a mitochondrial protein, has led to significant insights into cell death resistance in cancer cells. The development of a predictive biomarker for chemoresistance, based on the molecular interactions between VDAC1 and other cellular components, is one of her notable contributions. In addition to her work on cancer cell metabolism, Dr. Mazure has been a key figure in advancing our understanding of primary cilium function in cancer cells. This organelle, often overlooked in traditional cancer research, plays a critical role in cellular signaling pathways that regulate cell growth and survival. Her interdisciplinary approach, combining cell biology, molecular genetics, and cancer research, has led to a deeper understanding of the metabolic shifts that occur in cancer cells under stress.

🏆Accolades and Recognition 

Throughout her illustrious career, Dr. Mazure has received numerous accolades, underscoring her significant contributions to cancer research. She was awarded the prestigious Laureate prize from the Fondation Aventis in 2001 for her innovative research in human health. She was also the recipient of the Madeleine and Jean Schaeverbeke Prize in 2010, awarded by the Fondation de France, recognizing her exceptional work in cancer biology.

🌍 Impact and Influence 

Community Impact

Dr. Mazure’s research has had a profound impact on both the scientific community and clinical applications. Her discoveries related to cancer cell metabolism and resistance to cell death have opened new avenues for therapeutic interventions targeting the metabolic pathways that tumors exploit for survival. Her work has influenced cancer therapies, particularly those aimed at overcoming resistance to chemotherapy and improving the efficacy of existing treatments.

🔮Legacy and Future Contributions 

As Dr. Mazure continues to lead her research team at C3M, her future contributions are poised to shape the next generation of cancer therapies. Her current focus on the interplay between cancer metabolism and the immune system, as well as her ongoing efforts to understand the role of hypoxia in cancer progression, will likely lead to the development of more targeted and personalized cancer treatments.

Conclusion

Nathalie Mazure’s career has been defined by a relentless pursuit of scientific knowledge, a commitment to improving cancer treatments, and a strong dedication to fostering international collaborations. Through her research, leadership, and mentoring, she has made a significant impact on the field of cancer biology and beyond. As she continues to push the boundaries of scientific discovery, her legacy will undoubtedly inspire future generations of researchers and clinicians dedicated to improving human health

📚Publications

YAP1 modulation of primary cilia‐mediated ciliogenesis in 2D and 3D prostate cancer models

Authors: Yingbo Guo; Mathilde Dupart; Marie Irondelle; Pascal Peraldi; Frederic Bost; Nathalie M. Mazure
Journals: FEBS Letters

CXCR4 signaling determines the fate of hematopoietic multipotent progenitors by stimulating mTOR activity and mitochondrial metabolism

Authors: Vincent Rondeau; Maria Kalogeraki; Lilian Roland; Zeina Abou Nader; Vanessa Gourhand; Amélie Bonaud; Julia Lemos; Mélanie Khamyath; Clémentine Moulin; Bérénice Schell et al.
Journals: Science Signaling

Vitiligo auto‐immune response upon oxidative stress‐related mitochondrial DNA release opens up new therapeutic strategies

Authors: Ana Sant’Anna-Silva; Thomas Botton; Andrea Rossi; Jochen Dobner; Hanene Bzioueche; Nguyen Thach; Lauriane Blot; Sophie Pagnotta; Konrad Kleszczynski; Kerstin Steinbrink et al.
Journals: Clinical and Translational Medicine