Vinaya Poornima scite author profile

Activation of P2X(7) receptor (P2X(7)R) and pannexin have been implicated in membrane permeabilization associated with ischemic cell death and many other inflammatory processes. P2X(7)R has a unique property of forming large pore upon repeated or prolonged application of agonist like ATP or 2', 3'-(4-benzoyl) benzoyl ATP. It has been proposed that pannexin 1 (panx1) hemichannel associates with P2X(7)R to form large pore, though the actual mechanism is not yet understood. Calcium concentration in extracellular milieu drops in many patho-physiological conditions, e.g. ischemia, when P2X(7)R/pannexin is also known to be activated. Therefore, we hypothesize that extracellular calcium ([Ca(2+)](o)) plays an important role in the coupling of P2X(7)R-panx1 and subsequent membrane permeabilization. In this study we show that membrane permeability of the P2X(7)R and panx1 expressing N2A cell increases in ([Ca(2+)](o))-free solution. In [Ca(2+)](o)-free solution, fluorescent dye calcein trapped cells exhibited time-dependent dye leakage resulting in about 50% decrease of fluorescence intensity in 30 min. Control cells in 2 mM [Ca(2+)](o) did not show such leakage. Like N2A cells, mixed culture of neuron and glia, derived from hippocampal progenitor cells showed similar dye leakage. Dye leakage was blocked either by pannexin-specific blocker, carbenoxolone or P2X(7)R antagonists, Brilliant Blue G, and oxidized ATP. Furthermore P2X(7)R and panx1 were co-immunoprecipitated. The amount of P2X(7)R protein pulled-down with panx1, increased by twofold when cells were incubated 30 min in [Ca(2+)](o)-free buffer. Taken together, the results of this study demonstrate the activation and association of P2X(7)R-panx1, triggered by the removal of [Ca(2+)](o).

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Nitric oxide inhibits the pannexin 1 channel through a cGMP–PKG dependent pathway

Poornima

Vallabhaneni

Mukhopadhyay

et al. 2015

Nitric Oxide

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Nitric oxide and oral cancer: A review

Korde¹,

Sridharan²,

Gadbail

et al. 2012

Oral Oncology

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Evaluation of the role of nitric oxide in acid sensing ion channel mediated cell death

et al. 2010

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Basaloid squamous cell carcinoma

Poornima

Patankar

Sridharan

et al. 2012

J Oral Maxillofac Pathol

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Vinaya Poornima

P2X7 Receptor–Pannexin 1 Hemichannel Association: Effect of Extracellular Calcium on Membrane Permeabilization

Nitric oxide inhibits the pannexin 1 channel through a cGMP–PKG dependent pathway

Nitric oxide and oral cancer: A review

Evaluation of the role of nitric oxide in acid sensing ion channel mediated cell death

Basaloid squamous cell carcinoma

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