Abstract
Regional differences in the neuronal cytoskeleton were investigated in the giant neurons of Aplysia. Using SDS-PAGE, we have compared the proteins which comprise the cytoskeletons of cell bodies and axons. Separate populations of cell bodies and axons were collected and the proteins stained by the Coomassie brilliant blue method. Individual identified cell bodies, with long segments of their axons attached, were isolated, and the proteins were labeled with the [125I]Bolton- Hunter reagent. The proteins which are stably associated with the cytoskeleton were obtained by extracting the neuronal material in a physiological buffer containing Triton X-100. As a correlative measure to the biochemical analyses, electron microscopy was performed on the cell body and axonal fractions. Our results demonstrate that the composition and biochemical properties of the cytoskeletal proteins in the neuron cell bodies differ from those associated with axons. Specifically, the amount of neurofilament proteins, designated NF60 and NF65 , is 5 times more abundant in the axon than in the cell body. The relative amounts of actin and tubulin are comparable in these two regions of the neuron. In addition, the ratio of NF60 and NF65 is different in the cell body and axon. The cell bodies contain proportionally more NF60 than the axons. However, the physical properties of the tubulin in the cell body, as measured by relative solubility, differ from that of the axon. The substantial differences between the composition of the cytoskeleton of the cell bodies and axons of Aplysia suggests that at least two distinct cytoskeletal networks exist in these neurons, one specific for the cell body and the other specific for the axon.