Abstract

The ubiquitous, mostly endoplasmic reticulum (ER)-localized inositol 1,4,5-trisphosphate (InsP3) receptor (InsP3R) channel modulates cytoplasmic free [Ca2+] ([Ca2+]i) to generate complex Ca2+ signals by releasing Ca2+ from the ER lumen store. Whereas cytoplasmic InsP3 activation and biphasic [Ca2+]i regulation of InsP3R channel have been well studied, the effects of ER luminal free [Ca2+] ([Ca2+]ER) on InsP3R channel activity remains poorly understood and controversial. Using single-channel nuclear patch-clamp electrophysiology, we characterized a feed-through effect of [Ca2+]ER on InsP3R channel, whereby Ca2+ ion driven through an open InsP3R channel by the [Ca2+] gradient across the ER membrane can sufficiently raise the local [Ca2+]i around the channel to alter the its activity through its cytoplasmic activating and inhibitory Ca2+-binding sites. Furthermore, even in strong [Ca2+]i-buffering condition where InsP3R channel activity is not affected by Ca2+ flux across the channel, we still observed that [Ca2+]ER exerts a novel flux-independent inhibitory effect. This effect is profound, reducing InsP3R channel open probability in both saturating and sub-saturating [InsP3] by 80-90% in physiological [Ca2+]ER (∼300 μM) compared to non-physiologically low [Ca2+]ER (70 nM). The effect is observed in on-nucleus patch-clamp experiments using nuclei isolated from multiple cell types with different expression levels of various InsP3R isoforms. This effect was irreversibly abrogated when the nuclear membrane patch was excised into the luminal-side-out configuration, and the luminal side of the isolated membrane and channel was perfused with low (70 nM) [Ca2+] solution. Our observations suggest that the [Ca2+]ER inhibitory effect is likely mediated by some ER luminal peripheral accessory protein(s), which is lost during the perfusion.

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