Charlotte Cunningham-Rundles | Immunology | Best Research Article Award

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Dr. Charlotte Cunningham-Rundles | Immunology | Best Research Article Award

Mount Sinai School of Medicine | United States

Charlotte Cunningham-Rundles is the David S. Gottesman Professor in the Department of Medicine and Professor in the Department of Pediatrics at Mount Sinai Medical Center. She holds an M.D. from Columbia University and a Ph.D. in Immunology from New York University, building her career on the study of the pathogenesis, characterization, and treatment of human immune deficiency diseases. Trained as an internist with a long-standing pediatric appointment, she has devoted her professional life to bridging clinical practice and research in immunology. At Mount Sinai, she established the Primary Immune Deficiency Clinic, a major referral center for infants, children, and adults with suspected or confirmed immune deficiency disorders, attracting patients nationally and internationally. She is a co-founder of USIDNET, an NIH-supported research consortium affiliated with the Immune Deficiency Foundation, and serves as a member and treasurer of the IUIS Expert Committee on Primary Immune Deficiency. Her laboratory focuses on defects of human B cells, the most common genetic defects in immune disorders. She has extensively studied common variable immune deficiency (CVID), producing influential work on its demographics, immunologic parameters, and medical complications. Her recent investigations have advanced understanding of autoimmune and inflammatory conditions in CVID, revealing key insights into interferon signaling and innate immune dysregulation.

Profile: Scopus 

Featured Publications 

"Common Variable Immunodeficiency Clinical Manifestations Are Shaped by Presence and Type of Heterozygous NFKB1 Variants"

"Disease diagnostics using machine learning of B cell and T cell receptor sequences"

"Gut IgA functionally interacts with systemic IgG to enhance antipneumococcal vaccine responses"

"Primary versus Secondary Immune Thrombocytopenia (ITP): A Meeting Report from the 2023 McMaster ITP Summit"

"Common variable immunodeficiency: autoimmune cytopenias and advances in molecular diagnosis"

Dr. Frédérique Vegran – immuno oncology –  Best Researcher Award

Posted on by Innovator Awards

Dr. Frédérique Vegran - immuno oncology -  Best Researcher Award

INSERM - France

Author Profile 

GOOGLE SCHOLAR 

🎓 Early academic pursuits

Frédérique Vegran began her scientific journey with a strong foundation in cellular and molecular biology, earning her phd in this domain. during her early academic years, she exhibited a keen interest in understanding cellular behavior under varying physiological conditions. this led her to pursue advanced studies and training in belgium, where she spent three years as a post-doctoral researcher. her research during this time revolved around the tumor microenvironment, hypoxia, and metabolic regulation—areas that laid the groundwork for her future focus in immuno-oncology, a field now evolving alongside advancements in power electronics and biotechnology integration.

🧪 Professional endeavors

Currently a full-time research scientist at inserm umr1231 in dijon, france, frédérique vegran has established herself as a leading figure in immuno-oncology. her professional tenure is marked by active involvement in cutting-edge research aimed at enhancing anti-tumor immune responses. she has supervised multiple phd candidates and participated in thesis evaluation committees, highlighting her commitment to nurturing future generations of scientists. her involvement in research also bridges academic curiosity with translational potential—something akin to the precision and adaptability found in modern power electronics systems.

🔬 Contributions and research focus

Vegran’s groundbreaking contributions have significantly advanced our understanding of t cell biology in cancer. one of her landmark findings includes the role of il-1b in promoting the anti-tumor effect of th9 cells (nature immunology, 2013). she also revealed a novel transcriptional function of nlrp3 in th2 cells (nature immunology, 2015), and more recently, identified the immuno oncology regulatory role of nlrp3 in th17 differentiation and its acquisition of treg-like properties within tumor environments (cellular and molecular immunology, 2025). such insights have reinforced the importance of targeted immune modulation—an idea resonating with the fine-tuning concepts used in power electronics.

🌍 Impact and influence

Her influence extends beyond publications, with an h-index of 37 and i10 index of 52, demonstrating consistent citation and global recognition of her work. having authored over 67 peer- immuno oncology reviewed articles, including in top-tier journals, frédérique vegran continues to impact the scientific discourse in immuno-oncology. her discoveries have paved new avenues for therapeutic strategies, inspiring researchers globally to explore the interplay between immune cells and cancer. her professional memberships with the french society of immunology (sfi) and the french society for immunotherapy of cancer (fitc) further signify her standing in the field.

📊 Academic cites

Vegran’s academic output is notable with 67 journal publications indexed in scopus and sci, alongside 8 completed and 3 ongoing research projects. she has contributed to 3 immuno oncology consultancy/industry-related projects and has 2 patents published, highlighting her dual focus on innovation and application. although she has not authored books, her work stands as a valuable reference across the immunological and oncological academic landscapes.

🧬 Legacy and future contributions

Frédérique Vegran’s legacy lies in the transformative nature of her research on immune modulation in cancer. her consistent engagement in phd mentorship, cutting-edge experimentation, and scientific evaluation sets a strong example for academic leadership. looking ahead, her research is poised to further decode immune-cancer interactions, potentially contributing to the development of novel therapeutic interventions that integrate cellular biology with advanced technologies, much like how power electronics revolutionized modern engineering systems.

Notable Publications 

  1. Title: Targeting lactate-fueled respiration selectively kills hypoxic tumor cells in mice
    Authors: P. Sonveaux, F. Végran, T. Schroeder, M.C. Wergin, J. Verrax, Z.N. Rabbani, ...
    Journal: The Journal of Clinical Investigation

  2. Title: Lactate influx through the endothelial cell monocarboxylate transporter MCT1 supports an NF-κB/IL-8 pathway that drives tumor angiogenesis
    Authors: F. Végran, R. Boidot, C. Michiels, P. Sonveaux, O. Feron
    Journal: Cancer Research

  3. Title: Chemotherapy-triggered cathepsin B release in myeloid-derived suppressor cells activates the Nlrp3 inflammasome and promotes tumor growth
    Authors: M. Bruchard, G. Mignot, V. Derangère, F. Chalmin, A. Chevriaux, F. Végran, ...
    Journal: Nature Medicine

  4. Title: Targeting the lactate transporter MCT1 in endothelial cells inhibits lactate-induced HIF-1 activation and tumor angiogenesis
    Authors: P. Sonveaux, T. Copetti, C.J. De Saedeleer, F. Vegran, J. Verrax, ...
    Journal: PLOS ONE

  5. Title: The receptor NLRP3 is a transcriptional regulator of TH2 differentiation
    Authors: M. Bruchard, C. Rebé, V. Derangère, D. Togbé, B. Ryffel, R. Boidot, ...
    Journal: Nature Immunolog