THE EFFECT OF INTRAOCULAR INJECTION OF CORDYCEPIN ON RETINAL RNA SYNTHESIS AND ON RNA AXONALLY TRANSPORTED DURING REGENERATION OF THE OPTIC NERVES OF GOLDFISH

— The presence of relatively large amounts of RNA has been demonstrated in regenerating axons of the goldfish optic nerve. Previous experiments have suggested that this R NA may be composed of only small molecular weight 4S RNA. The present experiments were performed in order to see if inhibiting RNA transport by intraocular injections of cordycepin causes a selective depletion of 4S RNA arriving in the contralateral optic tectum, and thus add further evidence that 4S RNA is axonally transported. Optic nerves were crushed in a group of goldfish and 18 days later 10.0 /tg of cordycepin was injected into the right eye followed 3 h later by injections of [ 3 H]uridine into the same eye. Six days later the amount of axonally transported [ 3 H]RNA was decreased by 89% compared with non‐cordycepin treated controls. The effect of cordycepin on retinal RNA synthesis was shown by autoradiography to be primarily on retinal ganglion cell RNA synthesis with lesser effects on other cellular elements of the retina. SDS polyacrylamide gel electrophoresis at both 1 and 6 days after intraocular injections of cordycepin and [ 3 H]uridine, showed that cordycepin blocks the retinal synthesis of ribosomal RNAs but appeared to have little effect on the synthesis of 4S RNA. When transported RNA in the tectum was fractionated by gel electrophoresis 6 days after injection, it was found that the amount of ribosomal RNA was decreased by approx 70% as a result of cordycepin pretreatment. This correlated well with the effect of cordycepin on the transport of available RNA precursors (also decreased by approx 70%) and is consistent with the contention that in these experiments ribosomal RNA is synthesized in the tectum itself and is not axonal. The amount of [ 3 H] 4S RNA arriving in the tectum, however, was decreased by greater than 90% suggesting that its presence in the tectum was not entirely dependent on the availability of 3 H precursors for local synthesis in the tectum. These results are consistent with data suggesting that 4S RNA is the predominant, if not the only, RNA species axonally transported during regeneration of goldfish optic nerves.