Long-Term Effects of Axotomy on Excitability and Growth of Isolated Aplysia Sensory Neurons in Cell Culture: Potential Role of cAMP

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Long-Term Effects of Axotomy on Excitability and Growth of Isolated Aplysia Sensory Neurons in Cell Culture: Potential Role of cAMP

Supinder S. Bedi¹, Ali Salim¹, Shanping Chen¹, and David L. Glanzman¹^,²

¹ Department of Physiological Science and ² Brain Research Institute, UCLA, Los Angeles, California 90095-1568

Bedi, Supinder S., Ali Salim, Shanping Chen, and David L. Glanzman. Long-term effects of axotomy on excitability andgrowth of isolated Aplysia sensory neurons in cell culture: potentialrole of cAMP. J. Neurophysiol. 79: 1371-1383, 1998. Crushing nerves,which contain the axons of central sensory neurons, in Aplysiacauses the neurons to become hyperexcitable and to sprout newprocesses. Previous experiments that examined the effects of axonalinjury on Aplysia sensory neurons have been performed in the intactanimal or in the semi-intact CNS of Aplysia. It therefore hasbeen unclear to what extent the long-term neuronal consequencesof injury are due to intrinsic or extrinsic cellular signals.To determine whether injury-induced changes in Aplysia sensoryneurons are due to intrinsic or extrinsic signals, we have developedan in vitro model of axonal injury. Isolated central sensory neuronsgrown for 2 days in cell culture were axotomized. Approximately24 h after axotomy, sensory neurons exhibited a greater excitability $---$ reflected,in part, as a significant reduction in spike accommodation $---$ andgreater neuritic outgrowth than did control (unaxotomized) neurons.Rp diastereoisomer of the cyclic adenosine 3 $'$ ,5 $'$ -monophosphorothiate(Rp-cAMPS), an inhibitor of protein kinase A, blocked both thereduction in accommodation and increased neuritic outgrowth inducedby axotomy. Rp-cAMPS also blocked similar, albeit smaller, alterationsobserved in control sensory neurons during the 24-h period ofour experiments. These results indicate that axonal injury elevatescAMP levels within Aplysia sensory neurons, and that this elevationis directly responsible, in part, for the previously describedlong-term electrophysiological and morphological changes inducedin Aplysia sensory neurons by nerve crush. In addition, the resultsindicate that control sensory neurons in culture are also undergoinginjury-related electrophysiological and structural changes, probablydue to cellular processes triggered when the neurons are axotomizedduring cell culturing. Finally, the results provide support forthe idea that the cellular processes activated within Aplysiasensory neurons by injury, and those activated during long-termbehavioral sensitization, overlap significantly.

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