Ca2+ permeation through C-terminal cleaved, but not full-length human Pannexin1 hemichannels, mediates cell death.

Pannexin1 hemichannels (Panx1 HCs) are found in the membrane of most mammalian cells and communicate the intracellular and extracellular spaces, enabling the passive transfer of ions and small molecules. They are involved in physiological and pathophysiological conditions. During apoptosis, the C-terminal tail of Panx1 is proteolytically cleaved, but the permeability features of hemichannels and their role in cell death remain elusive. To address these topics, HeLa cells transfected with full-length human Panx1 (fl-hPanx1) or C-terminal truncated hPanx1 (Δ371hPanx1) were exposed to alkaline extracellular saline solution, increasing the activity of Panx1 HCs. The Δ371hPanx1 HC was permeable to DAPI and Etd+, but not to propidium iodide, whereas fl-hPanx1 HC was only permeable to DAPI. Furthermore, the cytoplasmic Ca2+ signal increased only in Δ371hPanx1 cells, which was supported by bioinformatics approaches. The influx of Ca2+ through Δ371hPanx1 HCs was necessary to promote cell death up to about 95% of cells, whereas the exposure to alkaline saline solution without Ca2+ failed to induce cell death, and the Ca2+ ionophore A23187 promoted more than 80% cell death even in fl-hPanx1 transfectants. Moreover, cell death was prevented with carbenoxolone or 10Panx1 in Δ371hPanx1 cells, whereas it was undetectable in HeLa Panx1-/- cells. Pretreatment with Ferrostatin-1 and necrostatin-1 did not prevent cell death, suggesting that ferroptosis or necroptosis was not involved. In comparison, zVAD-FMK, a pancaspase inhibitor, reduced death by ~60%, suggesting the involvement of apoptosis. Therefore, alkaline pH increases the activity of Δ371hPanx1HCs, leading to a critical intracellular free-Ca2+ overload that promotes cell death.

RuBPY decreases intracellular calcium by decreasing influx and increasing storage.

cis-[Ru(bpy)2(py)NO2](PF6) (RuBPY) is a ruthenium complex nitric oxide (NO) donor that presents a nitrite in its moiety and has been shown to induce vasodilation in various arteries, as well as arterial pressure reduction with no changes in heart rate. Because vascular tone is highly dependent on the cytosolic calcium concentration ([Ca2+ ]c), the current study aimed to investigate the effects of RuBPY on the intracellular mobilization of calcium stores of rat aortic vascular smooth muscle cells. Vascular reactivity experiments were performed in isolated aortic rings that were contracted with a high concentration of KCl or phenylephrine (Phe). Moreover, primary cultured vascular smooth muscle cells were used to measure [Ca2+ ]c by confocal microscopy. The NO donor RuBPY decreased the [Ca2+ ]c and reduced KCl and Phe-induced contractile responses. The selective inhibitor of sarco-endoplasmic Ca-ATPase (SERCA) with thapsigargin impaired the effect of RuBPY on Phe-induced contractile response. RuBPY also reduced caffeine-induced contraction, and the contraction dependent on the capacitive Ca2+ influx. Therefore, our results suggest that NO released from RuBPY decreased [Ca2+ ]c by calcium influx blockade and activation of guanylyl-cyclase-cGMP-GK pathway. These results indicate that RuBPY increases Ca2+ storage in the sarcoplasmic reticulum by SERCA activation and also by capacitive Ca2+ influx inhibition, which is dependent on the intracellular release of nitric oxide from this compound.

Hypericum caprifoliatum and Hypericum connatum affect human trophoblast-like cells differentiation and Ca(2+) influx.

OBJECTIVE: To study the effect of crude methanol and n-hexane extracts of Hypericum connatum (H. connatum) and Hypericum caprifoliatum on trophoblast-like cells. METHODS: BeWo and JEG-3 trophoblast-like cells were submitted to different extract concentrations (1, 5, 10 and 15 µg/mL) and evaluated in relation to cell viability and in vitro trophoblast differentiation and function. Cell viability was evaluated using WST-1 reagent. Differentiation was measured by luciferase production, hCG production/release, and mitogen-activated protein kinase signaling pathway activation. The function of the trophoblast-like cells was measured by (45)Ca(2+) influx evaluation. RESULTS: The results showed a decrease in cell viability/proliferation. Both plants and different extracts induced a significant decrease in hCG production/release and luciferase production. H. connatum did not cause mitogen-activated protein kinase signaling pathway disturbance; however, Hypericum caprifoliatum n-hexane extract at 15 µg/mL inhibited extracellular signal-regulated kinase 1/2 activation. The significant increase in Ca(2+) influx by JEG-3 cells was seen after short and long incubation times with H. connatum methanolic extract at 15 µg/mL. CONCLUSIONS: The results indicated that these two Hypericum species extracts can interfere on trophoblast differentiation and Ca(2+) influx, according to their molecular diversity. Although in vivo experiments are necessary to establish their action on placental formation and function, this study suggests that attention must be paid to the potential toxic effect of these plants.

Increased calcium influx triggers and accelerates cortical spreading depression in vivo in male adult rats.

Cortical spreading depression (CSD) is a depolarization wave associated with neurological disorders such as migraine, cerebral ischemia and traumatic brain injury. The mechanism of action of this phenomenon still remains unclear. Although it is suggested that extracellular K(+) accumulation contributes to CSD, other ions may play a relevant role in the mechanism of propagation of the wave. In this context, we hypothesize that Ca(2+) may play an important function in the wave propagation. Our results demonstrate that enhancing Ca(2+) influx into the cells by topical cortical application of the ionophore A23187 (10 µM, 50 µM and 100 µM solutions) increases the velocity of CSD propagation in a dose-dependent manner, and a much higher dose of this compound (2 mM) triggers CSD. In conclusion, increased Ca(2+) influx can be a key element in the induction mechanism of the CSD, and should be assessed in further experimental strategies targeting brain disorders related to CSD.

STIM1/Orai1-mediated store-operated Ca2+ entry: the tip of the iceberg

Highly efficient mechanisms regulate intracellular calcium (Ca2+) levels. The recent discovery of new components linking intracellular Ca2+ stores to plasma membrane Ca2+ entry channels has brought new insight into the understanding of Ca2+ homeostasis. Stromal interaction molecule 1 (STIM1) was identified as a Ca2+ sensor essential for Ca2+ store depletion-triggered Ca2+ influx. Orai1 was recognized as being an essential component for the Ca2+ release-activated Ca2+ (CRAC) channel. Together, these proteins participate in store-operated Ca2+ channel function. Defective regulation of intracellular Ca2+ is a hallmark of several diseases. In this review, we focus on Ca2+ regulation by the STIM1/Orai1 pathway and review evidence that implicates STIM1/Orai1 in several pathological conditions including cardiovascular and pulmonary diseases, among others.

Cardiovascular effects induced by the hydroalcoholic extract of the stem of Xylopia cayennensis in rats / Efeitos cardiovasculares induzidos pelo extrato hidroalcoólico das cascas de Xylopia cayennensis em ratos

The cardiovascular effects induced by the hydroalcoholic extract of the stem of Xylopia cayennensis (HEXC) were studied in rats using a combined in vivo and in vitro approach. In non-anesthetized rats, HEXC injections produced a significant and dose-dependent hypotension associated with an increase in heart rate. The hypotensive response was not attenuated after nitric oxide (NO) synthase blockade, L-NAME (20 mg/Kg, i.v.). In isolated rat superior aortic rings, HEXC was able to relax the tonus induced by phenylephrine (1 µM) and KCl (80 mM), (EC50 = 85±13 and 62±5 µg/mL, respectively). The smooth muscle-relaxant activity of HEXC was not inhibited by removal of vascular endothelium (EC50 = 58±6 µg/mL). HEXC antagonized CaCl2-induced contractions in depolarizing medium nominally without Ca2+. HEXC inhibited the intracellular calcium-dependent transient contractions induced by caffeine (20 mM) in Ca2+-free solution, but not those induced by norepinephrine (1 µM). In isolated rat atrial preparations, HEXC produced negative inotropic and chronotropic responses (IC50= 534±42 and 259±22 µg/mL, respectively). The results obtained suggest that the hypotensive effect of HEXC is probably due to a peripheral vasodilatation, at least, secondary to an interference with the Ca2+ mobilization as a consequence of voltage-dependent Ca2+ channel blockade and the inhibition of Ca2+ release from caffeine-sensitive intracellular stores. Finally, HEXC acts directly on the heart decreasing contractility and heart rate, these effects are of little importance to the expression of the hypotensive response induced by HEXC.

Os efeitos cardiovasculares induzidos pelo extrato hidroalcoólico do caule de Xylopia cayennensis (EHXC) foram estudados em ratos, utilizando uma abordagem combinada in vivo e in vitro. Em ratos não anestesiados, EHXC induziu uma hipotensão não dependente de dose associada com um aumento da freqüência cardíaca. Esta resposta hipontesora não foi atenuada depois do bloqueio com L-NAME (20 mg/Kg, i.v.). Em anéis de aorta isolados de rato, EHXC foi capaz de relaxar o tônus induzido por fenilefrina (1 µM) e KCl (80 mM), (CE50 = 85±13 e 62±5 µg/mL, respectivamente). A atividade vasorelaxante do HEXC não foi inibida pela remoção do endotélio vascular (CE50 = 58±6 µg/mL). HEXC antagonizou as contrações induzidas por CaCl2 em meio despolarizante nominalmente sem Ca+2. EHXC antagonizou de maneira dependente de concentração as contrações transientes induzidas por cafeína (20 mM), em meio livre de Ca2+, contudo não alterou aquelas induzidas por noradrenalina (1 µM). Em átrio isolado de rato, EHXC induziu um efeito inotrópico e cronotrópico negativo (CI50= 534±42 µg/mL e 259±22 µg/mL; respectivamente). Os resultados obtidos demonstram que EHXC apresenta um potente efeito hipotensor, provavelmente conseqüência da diminuição da resistência periférica total que parece ser, em parte, devido a uma ação inibitória sobre o influxo de Ca+2 através de canais de cálcio dependentes de voltagem e também através da inibição da liberação de Ca+2 dos estoques intracelulares sensíveis à cafeína. HEXC atua diretamente no coração diminuindo a contratilidade e a freqüência cardíaca, estes efeitos têm importância pequena na expressão da resposta hipotensiva induzida por HEXC.