Changes in protein content of goldfish optic nerve during degeneration and regeneration following nerve crush. Academic Article uri icon

Overview

abstract

  • After the goldfish optic nerve was crushed, the total amount of protein in the nerve decreased by about 45% within 1 week as the axons degenerated, began to recover between 2 and 5 weeks as axonal regeneration occurred, and had returned to nearly normal by 12 weeks. Corresponding changes in the relative amounts of some individual proteins were investigated by separating the proteins by two-dimensional gel electrophoresis and performing a quantitative analysis of the Coomassie Brilliant Blue staining patterns of the gels. In addition, labelling patterns showing incorporation of [3H]proline into individual proteins were examined to differentiate between locally synthesized proteins (presumably produced mainly by the glial cells) and axonal proteins carried by fast or slow axonal transport. Some prominent nerve proteins, ON1 and ON2 (50-55 kD, pI approximately 6), decreased to almost undetectable levels and then reappeared with a time course corresponding to the changes in total protein content of the nerve. Similar changes were seen in a protein we have designated NF (approximately 130 kD, pI approximately 5.2). These three proteins, which were labelled in association with slow axonal transport, may be neurofilament constituents. Large decreases following optic nerve crush were also seen in the relative amounts of alpha- and beta-tubulin, which suggests that they are localized mainly in the optic axons rather than the glial cells. Another group of proteins, W2, W3, and W4 (35-45 kD, pI 6.5-7.0), which showed a somewhat slower time course of disappearance and were intensely labelled in the local synthesis pattern, may be associated with myelin. A small number of proteins increased in relative amount following nerve crush. These included some, P1 and P2 (35-40 kD, pIs 6.1-6.2) and NT (approximately 50 kD, pI approximately 5.5), that appeared to be synthesized by the glial cells. Increases were also seen in one axonal protein, B (approximately 45 kD, pI approximately 4.5), that is carried by fast axonal transport, as well as in two axonal proteins, HA1 and HA2 (approximately 60 and 65 kD respectively, pIs 4.5-5.0), that are carried mainly by slow axonal transport. Other proteins, including actin, that showed no net changes in relative amount (but presumably changed in absolute amount in direct proportion to the changes in total protein content of the nerve), are apparently distributed in both the neuronal and nonneuronal compartments of the nerve.

publication date

  • April 1, 1985

Research

keywords

  • Cyprinidae
  • Goldfish
  • Nerve Degeneration
  • Nerve Regeneration
  • Nerve Tissue Proteins
  • Optic Nerve

Identity

Scopus Document Identifier

  • 0021989923

Digital Object Identifier (DOI)

  • 10.1111/j.1471-4159.1985.tb08736.x

PubMed ID

  • 2579203

Additional Document Info

volume

  • 44

issue

  • 4