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10th European Calcium Society symposium: The Ca2+-signaling toolkit in cell function, health and disease.
Femke Speelman-Rooms1,2, Maarten Vanmunster1, Aled Coughlan3
1KU Leuven, Lab. Molecular & Cellular Signaling, Dep. Cellular & Molecular Medicine, Campus Gasthuisberg O/N-I bus 802, Herestraat 49, B-3000 Leuven, Belgium.
Biology Open
|April 25, 2024
View abstract on PubMed
Summary
The 10th European Calcium Society symposium highlighted calcium signaling (Ca2+) roles in cell function and disease. Early-career researchers actively participated, presenting novel findings on intracellular Ca2+ signaling pathways.
Area of Science:
- Biochemistry
- Cell Biology
- Physiology
Background:
- The European Calcium Society (ECS) symposium convened to discuss calcium signaling (Ca2+).
- Ca2+ signaling is crucial for cellular functions, health, and disease pathogenesis.
- Intracellular Ca2+ dynamics are fundamental to understanding cellular processes.
Purpose of the Study:
- To review the key scientific discussions and findings from the 10th ECS symposium.
- To highlight the importance of Ca2+ signaling in various biological contexts.
- To emphasize the symposium's role in fostering early-career researcher (ECR) engagement.
Main Methods:
- The symposium featured six scientific sessions with invited and selected speakers.
- Presentations covered diverse aspects of intracellular Ca2+ signaling and its pathological implications.
- Discussions were facilitated through talks, poster sessions, and awards for ECRs.
Main Results:
- The symposium underscored the multifaceted roles of Ca2+ signaling in cellular function and disease.
- A significant focus was placed on the implications of aberrant Ca2+ signaling in various pathologies.
- ECRs were actively involved, presenting cutting-edge research and unpublished data.
Conclusions:
- The 10th ECS symposium successfully convened experts to discuss critical advancements in Ca2+ signaling research.
- The event fostered collaboration and knowledge exchange, particularly benefiting early-career scientists.
- Ca2+ signaling remains a vital area of study with significant implications for human health and disease treatment.