Immotile cilia mechanically sense the direction of fluid flow for left-right determination

Immotile cilia mechanically sense the direction of fluid flow for left-right determination

Immotile cilia at the ventral node of mouse embryos are required for sensing leftward fluid flow that breaks left-right symmetry of the body. However, the flow-sensing mechanism has long remained elusive. In this work, we show that immotile cilia at the node undergo asymmetric deformation along the...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2023-01, Vol.379 (6627), p.66-71
Hauptverfasser: Katoh, Takanobu A, Omori, Toshihiro, Mizuno, Katsutoshi, Sai, Xiaorei, Minegishi, Katsura, Ikawa, Yayoi, Nishimura, Hiromi, Itabashi, Takeshi, Kajikawa, Eriko, Hiver, Sylvain, Iwane, Atsuko H, Ishikawa, Takuji, Okada, Yasushi, Nishizaka, Takayuki, Hamada, Hiroshi
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Calcium (extracellular)
Calcium - metabolism
Calcium Signaling
Calcium signalling
Cilia
Cilia - physiology
Embryo, Mammalian
Embryogenesis
Embryonic growth stage
Fluid dynamics
Fluid flow
Hemispheric laterality
Mechanotransduction, Cellular
Mice
Pattern formation
Vertebrates
Zebrafish
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Zusammenfassung:Immotile cilia at the ventral node of mouse embryos are required for sensing leftward fluid flow that breaks left-right symmetry of the body. However, the flow-sensing mechanism has long remained elusive. In this work, we show that immotile cilia at the node undergo asymmetric deformation along the dorsoventral axis in response to the flow. Application of mechanical stimuli to immotile cilia by optical tweezers induced calcium ion transients and degradation of messenger RNA (mRNA) in the targeted cells. The Pkd2 channel protein was preferentially localized to the dorsal side of immotile cilia, and calcium ion transients were preferentially induced by mechanical stimuli directed toward the ventral side. Our results uncover the biophysical mechanism by which immotile cilia at the node sense the direction of fluid flow.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.abq8148