Selective Changes in Cell Bodies and Growth Cones of Nerve Growth Factor-Differentiated PC12 Cells Induced by Chemical Hypoxia

Abstract: Cytosolic free Ca²⁺ concentration ([Ca²⁺]_i) was measured in differentiated PC12 cells to test whether chemical hypoxia selectively alters intracellular Ca²⁺ in growth cones and cell bodies. Hypoxia increased [Ca²⁺]_i and exaggerated its response to K⁺ depolarization in both parts of the cells. [Ca²⁺]_i in the cell bodies was greater than that in the growth cones under resting conditions and in response to K⁺ or hypoxia. Ca²⁺-channel blockers selectively altered these responses. The L-channel blocker nifedipine reduced [Ca²⁺]_i following K⁺ depolarization by 67% in the cell bodies but only 25% in the growth cones. In contrast, the N-channel blocker ω-conotoxin GVIA (ω-CgTX) diminished K⁺-induced changes in [Ca²⁺]_i only in the growth cones. During hypoxia, nifedipine was more effective in the cell bodies than in the growth cones. During hypoxia, ω-CgTX diminished K⁺-induced changes by 50–75% in both parts of the cell, but only immediately after depolarization. The combination of nifedipine and ω-CgTX diminished the [Ca²⁺]_i response to K⁺ with or without hypoxia by >90% in the cell body and 70% in the growth cones. Thus, the increased Ca²⁺ entry with K⁺ during hypoxia is primarily through L channels in the cell bodies, whereas in growth cones influx through L and N channels is about equal. The results show that chemical hypoxia selectively alters Ca²⁺ regulation in the growth cone and cell body of the same cell.