| pubmed-article:10082196 | pubmed:abstractText | Human cerebrocortical synaptic terminals elicited concentration-dependent Ca2+ transients after Ap5A (diadenosine pentaphosphate) and ATP stimulation, with EC50 values of 23.44 +/- 3.70 microM and 11.48 +/- 2.12 microM, respectively. The lack of cross-desensitisation and the selective antagonism by Ip5I (diinosine pentaphosphate), suggests the activation of a dinucleotide receptor by Ap5A, and a P2X receptor by ATP. Ap5A Ca2+ transients were partially abolished by omega-conotoxin GVI-A (53%), suggesting the participation of a N-type Ca2+ channel in the dinucleotide response. ATP effect on Ca2+ entry was abolished by nicardipine (44%) and by omega-conotoxin GVI-A (52%), suggesting the participation of L- and N-type Ca2+ channels. These data suggest that Ap5A and ATP activate dinucleotide and P2X receptors, respectively, in human brain synaptic terminals. | lld:pubmed |
