P2X7 is a bifunctional receptor (P2X7R) for extracellular ATP that, depending on the level of activation, forms a cation-selective channel or a large conductance nonselective pore. The P2X7R has a strong proapoptotic activity but can also support growth. Here, we describe the mechanism involved in growth stimulation. Transfection of P2X7R increases resting mitochondrial potential (mt), basal mitochondrial Ca2. ([Ca2.]mt), intracellular ATP content, and confers ability to grow in the absence of serum. These changes require a full pore-forming function, because they are abolished in cells transfected with a mutated P2X7R that retains channel activity but cannot form the nonselective pore, and depend on an autocrine/paracrine tonic stimulation by secreted ATP. On the other hand, sustained stimulation of P2X7R causes a mt drop, a large increase in [Ca2.]mt, mitochondrial fragmentation, and cell death. These findings reveal a hitherto undescribed mechanism for growth stimulation by a plasma membrane pore.

Basal activation of the P2X(7) ATP receptor elevates mitochondrial calcium and potential, increases cellular ATP levels, and promotes serum-independent growth

ADINOLFI, Elena;CALLEGARI, Maria Giulia;FERRARI, Davide;PINTON, Paolo;DI VIRGILIO, Francesco
2005

Abstract

P2X7 is a bifunctional receptor (P2X7R) for extracellular ATP that, depending on the level of activation, forms a cation-selective channel or a large conductance nonselective pore. The P2X7R has a strong proapoptotic activity but can also support growth. Here, we describe the mechanism involved in growth stimulation. Transfection of P2X7R increases resting mitochondrial potential (mt), basal mitochondrial Ca2. ([Ca2.]mt), intracellular ATP content, and confers ability to grow in the absence of serum. These changes require a full pore-forming function, because they are abolished in cells transfected with a mutated P2X7R that retains channel activity but cannot form the nonselective pore, and depend on an autocrine/paracrine tonic stimulation by secreted ATP. On the other hand, sustained stimulation of P2X7R causes a mt drop, a large increase in [Ca2.]mt, mitochondrial fragmentation, and cell death. These findings reveal a hitherto undescribed mechanism for growth stimulation by a plasma membrane pore.
2005
Adinolfi, Elena; Callegari, Maria Giulia; Ferrari, Davide; Bolognesi, C.; Minelli, M.; Wieckowski, M. R.; Pinton, Paolo; Rizzuto, R.; DI VIRGILIO, Francesco
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/516981
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