Cristiano Grasso scite author profile

In many cell types agonist-receptor activation leads to a rapid and transient release of Ca2+ from intracellular stores via activation of inositol 1,4,5 trisphosphate (InsP3) receptors (InsP3Rs). Stimulated cells activate store- or receptor-operated calcium channels localized in the plasma membrane, allowing entry of extracellular calcium into the cytoplasm, and thus replenishment of intracellular calcium stores. Calcium entry must be finely regulated in order to prevent an excessive intracellular calcium increase. Junctate, an integral calcium binding protein of endo(sarco)plasmic reticulum membrane, (a) induces and/or stabilizes peripheral couplings between the ER and the plasma membrane, and (b) forms a supramolecular complex with the InsP3R and the canonical transient receptor potential protein (TRPC) 3 calcium entry channel. The full-length protein modulates both agonist-induced and store depletion–induced calcium entry, whereas its NH2 terminus affects receptor-activated calcium entry. RNA interference to deplete cells of endogenous junctate, knocked down both agonist-activated calcium release from intracellular stores and calcium entry via TRPC3. These results demonstrate that junctate is a new protein involved in calcium homeostasis in eukaryotic cells.

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Ryanodine receptor 1 mutations, dysregulation of calcium homeostasis and neuromuscular disorders

Treves

Anderson

Ducreux

et al. 2005

Neuromuscular Disorders

129

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Increased Ca²⁺ storage capacity of the skeletal muscle sarcoplasmic reticulum of transgenic mice over‐expressing membrane bound calcium binding protein junctate

Divet

Paesante

Grasso

et al. 2007

Journal Cellular Physiology

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Junctate is an integral sarco(endo)plasmic reticulum protein expressed in many tissues including heart and skeletal muscle. Because of its localization and biochemical characteristics, junctate is deemed to participate in the regulation of the intracellular Ca 2þ concentration. However, its physiological function in muscle cells has not been investigated yet. In this study we examined the effects of junctate over-expression by generating a transgenic mouse model which over-expresses junctate in skeletal muscle. Our results demonstrate that junctate over-expression induced a significant increase in SR Ca 2þ storage capacity which was paralleled by an increased 4-chloro-mcresol and caffeine-induced Ca 2þ release, whereas it did not affect SR Ca 2þ -dependent ATPase activity and SR Ca 2þ loading rates. In addition, junctate over-expression did not affect the expression levels of SR Ca 2þ binding proteins such as calsequestrin, calreticulin and sarcalumenin. These findings suggest that junctate over-expression is associated with an increase in the SR Ca 2þ storage capacity and releasable Ca 2þ content and support a physiological role for junctate in intracellular Ca 2þ homeostasis.

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