Copper inhibits P2Y2-dependent Ca signaling through the effects on thapsigargin-sensitive Ca stores in HTC hepatoma cells

Purinergic P2Y₂ G-protein coupled receptors play a key role in the regulation of hepatic Ca²⁺ signaling by extracellular ATP. The concentration of copper in serum is about 20 μM. Since copper accumulates in the liver in certain disease states, the purpose of these studies was to assess the effects of copper on P2Y₂ receptors in a model liver cell line. Exposure to a P2Y₂ agonist UTP increased Ca²⁺]_i by stimulating Ca²⁺ release from thapsigargin-sensitive Ca²⁺ stores. Pretreatment of HTC cells for several minutes with copper did not affect cell viability, but potently inhibited increases in Ca²⁺]_i evoked by UTP and thapsigargin. During this pretreatment, copper was not transported into the cytosol, and inhibited P2Y₂ receptors in a concentration-dependent manner with the IC₅₀ of about 15 μM. These results suggest that copper inhibits P2Y₂ receptors through the effects on thapsigargin-sensitive Ca²⁺ stores by acting from an extracellular side. Further experiments indicated that these effect of copper may lead to inhibition of regulatory volume decrease (RVD) evoked by hypotonic solution. Thus, copper may contribute to defective regulation of purinergic signaling and liver cell volume in diseases associated with the increased serum copper concentration.