Abstract
Inositol 1,4,5-trisphosphate receptors (IP3Rs) are intracellular channel proteins that mediate calcium (Ca2+) release from the endoplasmic reticulum, and they are involved in many biological processes (e.g. fertilization, secretion, and synaptic plasticity). Recent reports show that IP3R activity is strictly regulated by several interacting molecules (e.g. IP3R binding protein released with inositol 1,4,5-trisphosphate, huntingtin, presenilin, DANGER, and cytochrome c), and perturbation of this regulation causes intracellular Ca2+ elevation leading to several diseases (e.g. Huntington disease and Alzheimer disease). In this study, we identified protein kinase C substrate 80K-H (80K-H) to be a novel molecule interacting with the COOH-terminal tail of IP3Rs by yeast two-hybrid screening. 80K-H directly interacted with IP3R type 1 (IP3R1) in vitro and co-immunoprecipitated with IP3R1 in cell lysates. Immunocytochemical and immunohistochemical staining revealed that 80K-H colocalized with IP3R1 in COS-7 cells and in hippocampal neurons. We also showed that the purified recombinant 80K-H protein directly enhanced IP3-induced Ca2+ release activity by a Ca2+ release assay using mouse cerebellar microsomes. Furthermore 80K-H was found to regulate ATP-induced Ca2+ release in living cells. Thus, our findings suggest that 80K-H is a novel regulator of IP3R activity, and it may contribute to neuronal functions.
Highlights
Modulation of the cytosolic free calcium (Ca2ϩ) concentration is a highly versatile signaling system involved in the regulation of numerous processes such as fertilization, muscle contraction, secretion, cell growth, differentiation, apoptosis, and synaptic plasticity [1]
We identified 80K-H to be a molecule that binds to the COOH-terminal tail (CTT) of IP3Rs by yeast two-hybrid screening. 80K-H interacted with IP3R1 in vitro and in cell lysates
We examined the homology of the COOH-terexamined their interaction with the CTT of IP3R1 in yeast
Summary
Modulation of the cytosolic free calcium (Ca2ϩ) concentration is a highly versatile signaling system involved in the regulation of numerous processes such as fertilization, muscle contraction, secretion, cell growth, differentiation, apoptosis, and synaptic plasticity [1]. COS-7 cells and brain sections and 0.1% for hippocampal pri- release activity were performed by Igor Pro (version 4.04, mary neurons) in PBS for 5 min, and blocked with 1.0% skim WaveMetrics) software.
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