Abstract
Zn(2+) is required as either a catalytic or structural component for a large number of enzymes and thus contributes to a variety of important biological processes. We report here that low micromolar concentrations of Zn(2+) inhibited hormone- or forskolin-stimulated cAMP production in N18TG2 neuroblastoma cells. Similarly, low concentrations inhibited hormone- and forskolin-stimulated adenylyl cyclase (AC) activity in membrane preparations and did so primarily by altering the V(max) of the enzyme. Zn(2+) also inhibited recombinant isoforms, indicating that this reflects a direct interaction with the enzyme. The IC(50) for Zn(2+) inhibition was approximately 1-2 microm with a Hill coefficient of 1.33. The dose-response curve for Zn(2+) inhibition was identical for AC1, AC5, and AC6 as well as for the C441R mutant of AC5 whose defect appears to be in one of the catalytic metal binding sites. However, AC2 displayed a distinct dose-response curve. These data in combination with the findings that Zn(2+) inhibition was not competitive with Mg(2+) or Mg(2+)/ATP suggest that the inhibitory Zn(2+) binding site is distinct from the metal binding sites involved in catalysis. The prestimulated enzyme was found to be less susceptible to Zn(2+) inhibition, suggesting that the ability of Zn(2+) to inhibit AC could be significantly influenced by the coincidence timing of the input signals to the enzyme.
Highlights
Zn2ϩ is required as either a catalytic or structural component for a large number of enzymes and contributes to a wide variety of important biological processes including gene expression, replication, hormonal storage and release, neurotransmission, and memory
We have demonstrated that the incubation of neuroblastoma cells with Zn2ϩ attenuates their ability to synthesize cAMP in response to hormone or forskolin stimulation
It is further concentrated in synaptic vesicles of glutamatergic neurons and released into the extracellular space as a result of neuronal activity [29, 30]
Summary
We report here that low micromolar concentrations of Zn2؉ inhibited hormone- or forskolin-stimulated cAMP production in N18TG2 neuroblastoma cells. The dose-response curve for Zn2؉ inhibition was identical for AC1, AC5, and AC6 as well as for the C441R mutant of AC5 whose defect appears to be in one of the catalytic metal binding sites. Zn2ϩ Inhibits Adenylyl Cyclase soluble form of AC have indicated that the enzyme possesses two catalytic metal binding sites [11, 12]. X-ray crystallography studies distinguished these two sites by their preferential occupancy by either Zn2ϩ or Mn2ϩ Both sites are presumed to be occupied by Mg2ϩ in vivo [12], these observations allow for the possibility that Zn2ϩ could influence cAMP production in the brain where Zn2ϩ concentrations are significant. We have characterized the potent inhibitory effects of Zn2ϩ on AC in both isolated N18TG2 membranes and membranes isolated from Sf9 cells expressing recombinant isoforms
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