The store-operated calcium (Ca2+) entry (SOCE) is the Ca2+ entry mechanism used by cells to replenish depleted Ca2+ store. The dysregulation of SOCE has been reported in metastatic cancer. It is believed that SOCE promotes migration and invasion by remodeling the actin cytoskeleton and cell adhesion dynamics. There is recent evidence supporting that SOCE is critical for the spatial and the temporal coding of Ca2+ signals in the cell. In this review, we critically examined the spatiotemporal control of SOCE signaling and its implication in the specificity and robustness of signaling events downstream of SOCE, with a focus on the spatiotemporal SOCE signaling during cancer cell migration, invasion and metastasis. We further discuss the limitation of our current understanding of SOCE in cancer metastasis and potential approaches to overcome such limitation.
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December 2021
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Fuelled by the ‘resolution revolution’, cryo-EM has transformed our molecular understanding of transcriptional regulation in bacteria. As an example, Wood and colleagues (pp. 2695–2710) present the sialic acid gene repressor NanR (PDB-6WFG), where cryo-EM revealed the DNA-binding mode. “E. coli Bacteria” by NIAID is licensed under CC BY 2.0. Cover artwork courtesy of Christopher Horne.
Review Article|
December 02 2021
Spatiotemporal regulation of store-operated calcium entry in cancer metastasis
Biochem Soc Trans (2021) 49 (6): 2581–2589.
Article history
Received:
September 14 2021
Revision Received:
November 09 2021
Accepted:
November 12 2021
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