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      Inositol 1,4,5-trisphosphate–induced Calcium Release Is Necessary for Generating the Entire Light Response of Limulus Ventral Photoreceptors

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          Abstract

          The experiments reported here were designed to answer the question of whether inositol 1,4,5-trisphosphate (IP 3)-induced calcium release is necessary for generating the entire light response of Limulus ventral photoreceptors. For this purpose the membrane-permeable IP 3 receptor antagonist 2-aminoethoxydiphenyl borate (2APB) (Maruyama, T., T. Kanaji, S. Nakade, T. Kanno, and K. Mikoshiba. 1997. J. Biochem. (Tokyo). 122:498–505) was used. Previously, 2APB was found to inhibit the light activated current of Limulus ventral photoreceptors and reversibly inhibit both light and IP 3 induced calcium release as well as the current activated by pressure injection of calcium into the light sensitive lobe of the photoreceptor (Wang, Y., M. Deshpande, and R. Payne. 2002. Cell Calcium. 32:209). In this study 2APB was found to inhibit the response to a flash of light at all light intensities and to inhibit the entire light response to a step of light, that is, both the initial transient and the steady-state components of the response to a step of light were inhibited. The light response in cells injected with the calcium buffer 1,2-bis(o-aminophenoxy)ethane-N,N,N′,N′-tetraacetic acid (BAPTA) was reversibly inhibited by 2APB, indicating that these light responses result from IP 3-mediated calcium release giving rise to an increase in Ca i. The light response obtained from cells after treatment with 100 μM cyclopiazonic acid (CPA), which acts to empty intracellular calcium stores, was reversibly inhibited by 2APB, indicating that the light response after CPA treatment results from IP 3-mediated calcium release and a consequent rise in Ca i. Together these findings imply that IP 3-induced calcium release is necessary for generating the entire light response of Limulus ventral photoreceptors.

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          Most cited references36

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          Visual transduction in Drosophila.

          The brain's capacity to analyse and interpret information is limited ultimately by the input it receives. This sets a premium on information capacity of sensory receptors, which can be maximized by optimizing sensitivity, speed and reliability of response. Nowhere is selection pressure for information capacity stronger than in the visual system, where speed and sensitivity can mean the difference between life and death. Phototransduction in flies represents the fastest G-protein-signalling cascade known. Analysis in Drosophila has revealed many of the underlying molecular strategies, leading to the discovery and characterization of signalling molecules of widespread importance.
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            Requirement of the inositol trisphosphate receptor for activation of store-operated Ca2+ channels.

            The coupling mechanism between endoplasmic reticulum (ER) calcium ion (Ca2+) stores and plasma membrane (PM) store-operated channels (SOCs) is crucial to Ca2+ signaling but has eluded detection. SOCs may be functionally related to the TRP family of receptor-operated channels. Direct comparison of endogenous SOCs with stably expressed TRP3 channels in human embryonic kidney (HEK293) cells revealed that TRP3 channels differ in being store independent. However, condensed cortical F-actin prevented activation of both SOC and TRP3 channels, which suggests that ER-PM interactions underlie coupling of both channels. A cell-permeant inhibitor of inositol trisphosphate receptor (InsP3R) function, 2-aminoethoxydiphenyl borate, prevented both receptor-induced TRP3 activation and store-induced SOC activation. It is concluded that InsP3Rs mediate both SOC and TRP channel opening and that the InsP3R is essential for maintaining coupling between store emptying and physiological activation of SOCs.
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              Coupling between intracellular Ca2+ stores and the Ca2+ permeability of the plasma membrane. Comparison of the effects of thapsigargin, 2,5-di-(tert-butyl)-1,4-hydroquinone, and cyclopiazonic acid in rat thymic lymphocytes.

              The regulation of Ca2+ uptake by receptors is incompletely understood. It has been proposed that the Ca2+ permeability of the plasma membrane increases in response to depletion of a critical intracellular Ca2+ storage compartment (Takemura, H., Hughes, A. R., Thastrup, O., and Putney, J. W. (1989) J. Biol. Chem. 264, 12266-12271). This hypothesis is based largely on the effect of thapsigargin, an inhibitor of endomembrane CA(2+)-ATPases. Due to the existence of an endogenous leak, inhibition of Ca2+ uptake by thapsigargin induces depletion of the stores. This is accompanied by increased plasmalemmal Ca2+ permeability, without change in the level of inositol phosphates. On the other hand, depletion of the intracellular stores by 2,5-di(tert-butyl)-1,4-hydroquinone (BHQ), a chemically unrelated inhibitor of the Ca(2+)-ATPases, fails to induce Ca2+ influx (Kass, G. E., Duddy, S. K., Moore, G. A., and Orrenius, S. (1989) J. Biol. Chem. 264, 15192-15198). In an attempt to reconcile these observations, we analyzed in lymphocytes the mode of action of thapsigargin and BHQ. In addition, we tested the effects of cyclopiazonic acid (CPA), a blocker of the skeletal muscle sarcoplasmic reticulum Ca(2+)-ATPase. All three compounds released Ca2+ from a common intracellular compartment. Thapsigargin and low concentrations of BHQ and CPA concomitantly elevated the plasmalemmal Ca2+ permeability. Higher concentrations of BHQ and CPA produced a secondary inhibition of the Ca2+ entry pathway, by a mechanism seemingly unrelated to their effects on the internal stores. This inhibitory side effect can account for the reported discrepancies between the effects of thapsigargin and BHQ. The data provide further support for the notion that endomembrane Ca2+ stores are functionally coupled to the plasma membrane Ca2+ permeability pathway.
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                Author and article information

                Journal
                J Gen Physiol
                The Journal of General Physiology
                The Rockefeller University Press
                0022-1295
                1540-7748
                May 2003
                : 121
                : 5
                : 441-449
                Affiliations
                Department of Physiology, University of Connecticut Health Center, Farmington, CT 06030
                Author notes

                Address correspondence to: Alan Fein, Department of Physiology, University of Connecticut Health Center, Farmington CT, 06030-3505. Fax: (860) 679-1269; E-mail: afein@ 123456neuron.uchc.edu

                Article
                200208778
                10.1085/jgp.200208778
                2217379
                12719484
                99361b11-22ca-4a8b-b27a-dd1e468716c8
                Copyright © 2003, The Rockefeller University Press
                History
                : 30 December 2002
                : 17 March 2003
                : 27 March 2003
                Categories
                Article

                Anatomy & Physiology
                phototransduction,microvillar photoreceptors,inositol 1,4,5-trisphosphate receptor,2-aminoethoxydiphenyl borate,calcium buffers

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