A novel calmodulin antagonist, CGS 9343B, modulates calcium-dependent changes in neurite outgrowth and growth cone movements.
The neurotransmitter 5-HT alters growth cone motility and neurite elongation in neuron B19, isolated from the buccal ganglion of Helisoma trivolvis (Haydon et al., 1984). The effects of 5-HT are mediated by increases in intracellular calcium levels within the growth cones (Cohan et al., 1987). 5-HT causes a receptor-mediated depolarization of the membrane, which results in the opening of voltage-sensitive calcium channels. The resulting calcium influx decreases both the elongation rate and the total outgrowth of neurites. However, the mechanism(s) mediating these calcium-dependent changes is unclear. As many of the intracellular effects of calcium in eukaryotic cells are mediated by the calcium-binding protein calmodulin, we tested the involvement of such an interaction in the regulation of neurite outgrowth. In these experiments, a new, potent calmodulin antagonist with increased selectivity, CGS 9343B (CGS; Norman et al., 1987), was used to inhibit calmodulin activity during the application of 5-HT to neuron B19. The addition of 100 microM 5-HT to the culture medium resulted in a significant decrease in the rate of neurite elongation and total neurite outgrowth. Administration of CGS to the culture medium at a concentration (1.8 microM) equivalent to its IC50 for calmodulin inhibition completely blocked the inhibitory effects of 100 microM 5-HT, on both neurite elongation and total neurite outgrowth. CGS alone caused a slight decrease in elongation rate but had no significant effect on total outgrowth. CGS did not block 5-HT-induced electrical activity, indicating that it was not acting as a 5-HT receptor antagonist.(ABSTRACT TRUNCATED AT 250 WORDS)[1]References
- A novel calmodulin antagonist, CGS 9343B, modulates calcium-dependent changes in neurite outgrowth and growth cone movements. Polak, K.A., Edelman, A.M., Wasley, J.W., Cohan, C.S. J. Neurosci. (1991) [Pubmed]
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