Figure 7.
Proposed mechanisms for P2-receptor–dependent activation of nonselective cation channels in the megakaryocyte and platelet. ADP activates an Na+- and Ca2+-permeable cation channel, likely to be a member of the TRP family of ion channels, by combined stimulation of P2Y1 and P2Y12 receptors. (1) P2Y1 activation of PLCβ hydrolyzes PIP2, resulting in the removal of an inhibitory action on the cation channel. (2) Simultaneously, P2Y12 activates PI3-kinase by its Gβγ subunits, resulting in the phosphorylation of PIP2 to PIP3, further decreasing the inhibition by PIP2. (3) PIP3 may be an activator of this or another cation channel.60 (4) Both diacylglycerol (DAG) and IP3 (or an IP3 metabolite) have been reported to activate cation channels in the platelet/MK.26,28,29,48 IP3 results in the release of stored Ca2+, which further modulates the cation channel.26 (5) P2Y12 receptors, through PI3-kinase, stimulate dense granule release into the open canalicular system in the platelet/demarcation membrane system in the MK (OCS/DMS); P2Y1-dependent protein kinase C (PKC) stimulation is also likely to potentiate this secretion. (6) Released ATP can repetitively activate P2X1 receptors and further modulate the P2Y current through Ca2+ influx. MLCK indicates myosin light-chain kinase.