Figure 3.
Figure 3. Intracellular Ca2+ measurements in subclones of 1321-N1 cells indicate the presence of P2Y receptor responses. Intracellular Ca2+ responses in single 1321-N1 G P2X1 WT (A) and 1321-N1 G4 P2X1del cells (B-D)13 loaded with the fluorescent calcium indicator fluo-3. Similar results were obtained in the 2 cell lines. (A) In the presence of extracellular Ca2+, ATP (30 μM) and ADP (30 μM) evoked a transient Ca2+ increase. (B) Loss of the response to ADP (100 μM) after only a short period (120 seconds in this experiment) in nominally Ca2+-free medium. This lack of response was caused by the rapid depletion of Ca2+ from intracellular stores because Thapsigargin (TG) had no effect in Ca2+-free medium. (C) Demonstration that TG evoked an expected large increase in Ca2+-containing medium after ADP exposure. (D) Adding ADP earlier (60 seconds) after exposure to Ca2+-free medium evoked a small, delayed Ca2+ increase.

Intracellular Ca2+measurements in subclones of 1321-N1 cells indicate the presence of P2Y receptor responses. Intracellular Ca2+ responses in single 1321-N1 G P2X1 WT (A) and 1321-N1 G4 P2X1del cells (B-D)13  loaded with the fluorescent calcium indicator fluo-3. Similar results were obtained in the 2 cell lines. (A) In the presence of extracellular Ca2+, ATP (30 μM) and ADP (30 μM) evoked a transient Ca2+ increase. (B) Loss of the response to ADP (100 μM) after only a short period (120 seconds in this experiment) in nominally Ca2+-free medium. This lack of response was caused by the rapid depletion of Ca2+ from intracellular stores because Thapsigargin (TG) had no effect in Ca2+-free medium. (C) Demonstration that TG evoked an expected large increase in Ca2+-containing medium after ADP exposure. (D) Adding ADP earlier (60 seconds) after exposure to Ca2+-free medium evoked a small, delayed Ca2+ increase.

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