Inositol 1,4,5-trisphosphate receptors (IP3Rs) are channels that release Ca2+ from internal stores following agonist-stimulated generation of IP3 by phospholipase C. The Ca2+ signal generated can take the form of a variety of complex waves/oscillations, and the intracellular distribution of IP3Rs is thought to influence its spatial and temporal dynamics. Jan Parys and co-workers now reveal that things are even more complicated (see p. 1269). They have examined the subcellular positioning of IP3Rs in vascular smooth muscle cells stimulated by the hormone arginine-vasopressin. The authors find that, prior to stimulation,IP3R1 and the SERCA-type Ca2+ pump that refills the stores reside in the perinuclear region. After prolonged stimulation, however,they relocalize to the cytoplasm. Parys and co-workers demonstrate that this relocalization can be blocked by agents that inhibit microtubule dynamics or vesicle trafficking. They also show that it depends on...
Interviews with Biologists @ 100 conference speakers
Explore our interviews with keynote speakers from the Biologists @ 100 conference, hosted to celebrate our publisher’s 100th anniversary, where we discuss climate change and biodiversity with Hans-Otto Pörtner and Jane Francis, health and disease with Charles Swanton and Sadaf Farooqi, and emerging technologies with Manu Prakash and Jennifer Lippincott-Schwartz.
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JCS-FocalPlane Training Grants
Early-career researchers - working in an area covered by JCS - who would like to attend a microscopy training course, please apply. Deadline dates for 2025 applications: 6 June 2025 (decision by week commencing 28 July 2025) and 5 September 2025 (decision by week commencing 20 October 2025).
The emerging roles of the endoplasmic reticulum in mechanosensing and mechanotransduction
In their Review, Jonathan Townson and Cinzia Progida highlight recently emerging evidence for a role of the endoplasmic reticulum in enabling a cell to sense and respond to changes in the extracellular mechanical environment.
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