Regulation of epithelial calcium transportThis research group studies the regulation of epithelial ion transport, with a fundamental focus on the electrophysiological analysis combined with the biochemistry of ion channels, membrane transporters and cell signaling.
Characterization of the structure-function relationship of epithelial ion channels.
CharacterizationThrough uniquely synergizing cutting-edge (bio)chemical and biophysical technologies, we aim to deliver detailed insight into epithelial ion channels (mainly TRP channels) and transporters. This will unravel structural domains and regulatory subunits essential for their function, which aids in unravelling the pathogenicity of specific disease variants and can provide detailed insight into the actions of pharmacological compounds, to ultimately support drug development programs.
Understanding the molecular mechanisms involved in renal calcium handling and kidney stone formation.
UnderstandingThe urinary calcium concentration is an important factor in kidney stone formation, and it is evident that avoidance of new crystal deposits should be the prime target site in order to prevent recurrence. Here, we focus on gaining fundamental knowledge on the related process of how perturbations in tubular calcium transport induce kidney stone formation. In addition, we aim to develop of a new molecular entity with a unique mode of action that might in the future be used for effective treatment of kidney stones.
Kidney organoids as tool to study electrolyte homeostasis
Several discoveries can be found in our researchers' publications.
See grants and prizes that our group members received.
Grants and prizes
- RIMLS Junior Researcher (PhD) grant (2020) “Klotho in the kidney: a hormone goddess or still a myth”, co-supervised with Joost Hoenderop
- Radboud University study prize for Mark van Goor (2019)
- Radboudumc PhD fellowship for Wouter van Megen: “Flow sensing and electrolyte reabsorption in ciliary dysfunction” (2019)
- Marie Curie Individual fellowship for Sara Roig: “Flow-stimulated ion channel signalling in renal epithelia (2019)
- Ramon Areces post-doctoral fellowship for Sara Roig: Calmodulin regulation of the calcium channel TRPV5 (2018)
- Radboudumc PhD fellowship for Mark van Goor: “TRPV structure and function: mechanistic insight into the functional diversities of TRPV ion channels” (2018)
View press coverages about our research.