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Ca2+ imaging and single-channel recording were used to study the regulation of cytosolic free Ca2+ ([Ca2+]i) in local regions of frog sympathetic neurons. Digital imaging with the fluorescent Ca2+ indicator fura-2 demonstrated: (i) resting [Ca2+]i of 70-100 nM; (ii) significant increases in [Ca2+]i in growth cones and cell bodies following depolarization induced by extracellular electrical stimulation or increased external K+; (iii) in cell bodies, large transient increases in [Ca2+]i following exposure to caffeine and sustained oscillations in [Ca2+]i in the presence of elevated K+ and caffeine; and (iv) in growth cones, smaller and briefer changes in [Ca2+]i in response to caffeine. The nature of the depolarization-induced Ca2+ entry was studied with cell-attached patch recordings (110 mM Ba2+ in recording pipette). Ca2+ channel activity was observed in 18 of 20 patches on cell bodies, 3 of 5 patches along neurites, and 36 of 41 patch recordings from growth cones. We observed two types of Ca2+ channels: L-type channels, characterized by a 28-pS slope conductance, sensitivity to dihydropyridine Ca2+ channel agonist, and availability even with depolarizing holding potentials; and N-type channels, characterized by a 15-pS slope conductance, resistance to dihydropyridines, and inactivation with depolarized holding potentials. Both types of channels were found on growth cones and along neurites as well as on cell bodies; channels often appeared concentrated in local hot spots, sometimes dominated by one channel type.

Spatial distribution of calcium channels and cytosolic calcium transients in growth cones and cell bodies of sympathetic neurons.