KAUST professor Pierre Magistretti has been elected to the Norwegian Academy of Science and Letters. His election recognizes his contributions to neuroscience, specifically his work on lactate's role in brain function. Magistretti's research focuses on the lactate shuttle system and how neurons and glial cells cooperate to meet energy demands. Why it matters: This honor highlights KAUST's contribution to international neuroscience and can foster further collaboration in the field.
KAUST's Vice President of Research, Professor Pierre Magistretti, presented the 2023 Nansen Neuroscience Lecture in Oslo. The lecture highlighted his discovery of the astrocyte-neuron lactate shuttle and its role in brain physiology and pathology. His research explains how astrocytes feed neurons lactate as a primary energy source, impacting memory and cognition. Why it matters: The lecture recognizes KAUST's contribution to neuroscience and highlights the importance of understanding brain energy consumption for treating neurological disorders.
KAUST Professor Pierre Magistretti received the 2016 Fondation IPSEN Neuronal Plasticity prize for his work in neuroenergetics. The award recognizes Magistretti's contributions to understanding the relationship between neuronal activity and brain energy consumption. He shares the award with Dr. David Attwell and Dr. Marcus Raichle, and will be honored at FENS in Copenhagen. Why it matters: This award highlights KAUST's contribution to international neuroscience research and strengthens its reputation in biological and environmental science.
KAUST Discovery Professor Pierre Magistretti, Dean of KAUST's Biological and Environmental Science and Engineering Division, received an honorary membership from the Chinese Association for Physiological Sciences (CAPS). CAPS is a part of the China Association for Science and Technology, aiming to advance scientific progress and economic revitalization in China. Magistretti was recognized for his research on brain energy metabolism and the mechanisms regulating energy delivery to active neurons, with implications for functional brain imaging. Why it matters: This award highlights KAUST's growing international recognition and its faculty's contributions to fundamental research with potential applications in healthcare and neuroscience.
KAUST Discovery highlights the contributions of Magistretti to the field of neuroenergetics. His research explores the cellular and molecular basis of brain energy metabolism and brain imaging. Magistretti's group discovered mechanisms underlying the coupling between neuronal activity and energy consumption, revealing the role of astrocytes. Why it matters: Understanding brain energy metabolism and the role of glial cells can advance brain imaging techniques and our understanding of neuronal processes.