Amanda M. Auld scite author profile

The effects of expression of the Drosophila melanogaster Trpl protein, which is thought to encode a putative Ca2+ channel [Phillips, Bull and Kelly (1992) Neuron 8, 631-642], on divalent cation inflow in Xenopus laevis oocytes were investigated. The addition of extracellular Ca2+ ([Ca2+]0) to oocytes injected with trpl cRNA and to mock-injected controls, both loaded with the fluorescent Ca2+ indicator fluo-3, induced a rapid initial and a slower sustained rate of increase in fluorescence, which were designated the initial and sustained rates of Ca2+ inflow respectively. Compared with mock-injected oocytes, trpl-cRNA-injected oocytes exhibited a higher resting cytoplasmic free Ca2+ concentration ([Ca2+]i), and higher initial and sustained rates of Ca2+ inflow in the basal (no agonist) states. The basal rate of Ca2+ inflow in trpl-cRNA-injected oocytes increased with (1) an increase in the time elapsed between injection of trpl cRNA and the measurement of Ca2+ inflow, (2) an increase in the amount of trpl cRNA injected and (3) an increase in [Ca2+]0. Gd3+ inhibited the trpl cRNA-induced basal rate of Ca2+ inflow, with a concentration of approx. 5 microM Gd3+ giving half-maximal inhibition. Expression of trpl cRNA also caused an increase in the basal rate of Mn2+ inflow. The increases in resting [Ca2+]1 and in the basal rate of Ca2+ inflow induced by expression of trpl cRNA were inhibited by the calmodulin inhibitors W13, calmodazolium and peptide (281-309) of (Ca2+ and calmodulin)-dependent protein kinase II. A low concentration of exogenous calmodulin (introduced by microinjection) activated, and a higher concentration inhibited, the trpl cRNA-induced increase in basal rate of Ca2+ inflow. The action of the high concentration of exogenous calmodulin was reversed by W13 and calmodazolium. When rates of Ca2+ inflow in trpl-cRNA-injected oocytes were compared with those in mock-injected oocytes, the guanosine 5'-[beta-thio]diphosphate-stimulated rate was greater, the onset of thapsigargin-stimulated initial rate somewhat delayed and the inositol 1,4,5-trisphosphate-stimulated initial rate markedly inhibited. It is concluded that (1) the divalent cation channel activity of the Drosophila Trpl protein can be detected in Xenopus oocytes: (2) in the environment of the Xenopus oocyte the Trpl channel admits some Mn2+ as well as Ca2+, is activated by cytoplasmic free Ca2+ (through endogenous calmodulin) and by a trimeric GTP-binding regulatory protein, but does not appear to be activated by depletion of Ca2+ in the endoplasmic reticulum; and (3) expression of the Trpl protein inhibits the process by which the release of Ca2+ from intracellular stores activates endogenous store-activated Ca2+ channels.

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Store-operated Ca2+ inflow in Reuber hepatoma cells is inhibited by voltage-operated Ca2+ channel antagonists and, in contrast to freshly isolated hepatocytes, does not require a pertussis toxin-sensitive trimeric GTP-binding protein

Auld

Chen

Brereton

et al. 2000

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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The treatment of H4-IIE cells (an immortalised liver cell line derived from the Reuber rat hepatoma) with thapsigargin, 2, 5-di-(tert-butyl)-1,4-benzohydroquinone, cyclopiazonic acid, or pretreatment with EGTA, stimulated Ca(2+) inflow (assayed using intracellular fluo-3 and a Ca(2+) add-back protocol). No stimulation of Mn(2+) inflow by thapsigargin was detected. Thapsigargin-stimulated Ca(2+) inflow was inhibited by Gd(3+) (maximal inhibition at 2 microM Gd(3+)), the imidazole derivative SK&F 96365, and by relatively high concentrations of the voltage-operated Ca(2+) channel antagonists, verapamil, nifedipine, nicardipine and the novel dihydropyridine analogues AN406 and AN1043. The calmodulin antagonists W7, W13 and calmidazolium also inhibited thapsigargin-induced Ca(2+) inflow and release of Ca(2+) from intracellular stores. No inhibition of either Ca(2+) inflow or Ca(2+) release was observed with calmodulin antagonist KN62. Substantial inhibition of Ca(2+) inflow by calmidazolium was only observed when the inhibitor was added before thapsigargin. Pretreatment of H4-IIE cells with pertussis toxin, or treatment with brefeldin A, did not inhibit thapsigargin-stimulated Ca(2+) inflow. Compared with freshly isolated rat hepatocytes, H4-IIE cells exhibited a more diffuse actin cytoskeleton, and a more granular arrangement of the endoplasmic reticulum (ER). In contrast to freshly isolated hepatocytes, the arrangement of the ER in H4-IIE cells was not affected by pertussis toxin treatment. Western blot analysis of lysates of freshly isolated rat hepatocytes revealed two forms of G(i2(alpha)) with apparent molecular weights of 41 and 43 kDa. Analysis of H4-IIE cell lysates showed only the 41 kDa form of G(i2(alpha)) and substantially less total G(i2(alpha)) than that present in rat hepatocytes. It is concluded that H4-IIE cells possess store-operated Ca(2+) channels which do not require calmodulin for activation and exhibit properties similar to those in freshly isolated rat hepatocytes, including susceptibility to inhibition by relatively high concentrations of voltage-operated Ca(2+) channel antagonists. In contrast to rat hepatocytes, SOCs in H4-IIE cells do not require G(i2(alpha)) for activation. Possible explanations for differences in the requirement for G(i2(alpha)) in the activation of Ca(2+) inflow are briefly discussed.

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Evidence that a pertussis-toxin-sensitive substrate is involved in the stimulation by epidermal growth factor and vasopressin of plasma-membrane Ca2+ inflow in hepatocytes

Hughes

Crofts

Auld

et al. 1987

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1. In hepatocytes, epidermal growth factor (EFG) (a) increased the rate of 45Ca2+ exchange in cells incubated at 1.3 mM extracellular Ca2+, (b) increased the activity of glycogen phosphorylase a and the intracellular free Ca2+ concentration (measured with quin2) in a process dependent on the concentration of extracellular Ca2+, and (c) enhanced the increase in glycogen phosphorylase activity which follows the addition of Ca2+ to cells previously incubated in the absence of Ca2+. It is concluded that EGF stimulates plasma-membrane Ca2+ inflow. 2. The effects of the combination of EGF and vasopressin on the rate of 45Ca2+ exchange and on the rate of increase in glycogen phosphorylase activity were the same as those of vasopressin alone. 3. The amount of 45Ca2+ released by EGF from internal stores was about 30% of that released by vasopressin. No detectable increase in [3H]inositol mono-, bis- or tris-phosphate was observed after the addition of EGF to cells labelled with myo-[3H]inositol. 4. In hepatocytes isolated from rats treated with pertussis toxin, the effects of EGF and vasopressin on phosphorylase activity (measured at 1.3 mM-Ca2+) and on the rate of Ca2+ inflow (measured with quin2) were markedly decreased compared with those in normal cells. 5. Treatment with pertussis toxin did not impair the ability of vasopressin to release Ca2+ from internal stores, but decreased vasopressin-stimulated [3H]inositol polyphosphate formation by 50%. 6. It is concluded that the mechanism(s) by which vasopressin and EGF stimulate plasma-membrane Ca2+-inflow transporters in hepatocytes involves a GTP-binding regulatory protein sensitive to pertussis toxin, and does not require an increase in the concentration of inositol trisphosphate comparable with that which induces the release of Ca2+ from the endoplasmic reticulum.

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Studies with verapamil and nifedipine provide evidence for the presence in the liver cell plasma membrane of two types of Ca2+ inflow transporter which are dissimilar to potential-operated Ca2+ channels

Hughes

Milton

Barritt

et al. 1986

Biochemical Pharmacology

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Amanda M. Auld

Expression of Drosophila trpl cRNA in Xenopus laevis oocytes leads to the appearance of a Ca2+ channel activated by Ca2+ and calmodulin, and by guanosine 5′[γ-thio]triphosphate

Store-operated Ca2+ inflow in Reuber hepatoma cells is inhibited by voltage-operated Ca2+ channel antagonists and, in contrast to freshly isolated hepatocytes, does not require a pertussis toxin-sensitive trimeric GTP-binding protein

Evidence that a pertussis-toxin-sensitive substrate is involved in the stimulation by epidermal growth factor and vasopressin of plasma-membrane Ca2+ inflow in hepatocytes

Studies with verapamil and nifedipine provide evidence for the presence in the liver cell plasma membrane of two types of Ca2+ inflow transporter which are dissimilar to potential-operated Ca2+ channels

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