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Calaxin drives sperm chemotaxis by Ca²⁺-mediated direct modulation of a dynein motor.

Proceedings of the National Academy of Sciences of the United States of America (2012-11-22)
Katsutoshi Mizuno, Kogiku Shiba, Masahiko Okai, Yusuke Takahashi, Yuji Shitaka, Kazuhiro Oiwa, Masaru Tanokura, Kazuo Inaba
RESUMEN

Sperm chemotaxis occurs widely in animals and plants and plays an important role in the success of fertilization. Several studies have recently demonstrated that Ca(2+) influx through specific Ca(2+) channels is a prerequisite for sperm chemotactic movement. However, the regulator that modulates flagellar movement in response to Ca(2+) is unknown. Here we show that a neuronal calcium sensor, calaxin, directly acts on outer-arm dynein and regulates specific flagellar movement during sperm chemotaxis. Calaxin inhibition resulted in significant loss of sperm chemotactic movement, despite normal increases in intracellular calcium concentration. Using a demembranated sperm model, we demonstrate that calaxin is essential for generation and propagation of Ca(2+)-induced asymmetric flagellar bending. An in vitro motility assay revealed that calaxin directly suppressed the velocity of microtubule sliding by outer-arm dynein at high Ca(2+) concentrations. This study describes the missing link between chemoattractant-mediated Ca(2+) signaling and motor-driven microtubule sliding during sperm chemotaxis.

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Repaglinide, ≥98% (HPLC), solid
Repaglinide for system suitability, European Pharmacopoeia (EP) Reference Standard
Repaglinide, European Pharmacopoeia (EP) Reference Standard