TRPP2 and TRPV4 form a polymodal sensory channel complex

TRPP2 and TRPV4 form a polymodal sensory channel complex

The primary cilium has evolved as a multifunctional cellular compartment that decorates most vertebrate cells. Cilia sense mechanical stimuli in various organs, but the molecular mechanisms that convert the deflection of cilia into intracellular calcium transients have remained elusive. Polycystin-2...

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Veröffentlicht in:The Journal of cell biology 2008-08, Vol.182 (3), p.437-447
Hauptverfasser: Köttgen, Michael, Buchholz, Björn, Garcia-Gonzalez, Miguel A, Kotsis, Fruzsina, Fu, Xiao, Doerken, Mara, Boehlke, Christopher, Steffl, Daniel, Tauber, Robert, Wegierski, Tomasz, Nitschke, Roland, Suzuki, Makoto, Kramer-Zucker, Albrecht, Germino, Gregory G, Watnick, Terry, Prenen, Jean, Nilius, Bernd, Kuehn, E. Wolfgang, Walz, Gerd
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Calcium
Calcium Signaling
Cell Line
Cells
Cellular biology
Cilia
Cilia - metabolism
Cysts
Cysts - metabolism
Epithelial Cells - metabolism
Fluorescence
Humans
Ion channels
Ions
Kidneys
Mice
Mutation
Oocytes
Oocytes - metabolism
Protein Binding
Protein Transport
Small interfering RNA
Temperature
TRPC cation channels
TRPP Cation Channels - metabolism
TRPV Cation Channels - metabolism
Vertebrates
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Zusammenfassung:The primary cilium has evolved as a multifunctional cellular compartment that decorates most vertebrate cells. Cilia sense mechanical stimuli in various organs, but the molecular mechanisms that convert the deflection of cilia into intracellular calcium transients have remained elusive. Polycystin-2 (TRPP2), an ion channel mutated in polycystic kidney disease, is required for cilia-mediated calcium transients but lacks mechanosensitive properties. We find here that TRPP2 utilizes TRPV4 to form a mechano- and thermosensitive molecular sensor in the cilium. Depletion of TRPV4 in renal epithelial cells abolishes flow-induced calcium transients, demonstrating that TRPV4, like TRPP2, is an essential component of the ciliary mechanosensor. Because TRPV4-deficient zebrafish and mice lack renal cysts, our findings challenge the concept that defective ciliary flow sensing constitutes the fundamental mechanism of cystogenesis.
ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.200805124