COLCHICINE INHIBITION OF NERVE FIBER FORMATION IN VITRO

doi:10.1083/jcb.53.1.164

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ARTICLE

COLCHICINE INHIBITION OF NERVE FIBER FORMATION IN VITRO

Mathew P. Daniels ¹

¹ From the Whitman Laboratory, University of Chicago, Chicago, Illinois 60637.

Dr. Daniels' present address is the Laboratory of Biochemical Genetics, Heart and Lung Institute, National Institutes of Health, Bethesda, Maryland 20014.

Inhibition of nerve fiber (neurite) formation by colchicineand Colcemid was studied in monolayer cultures of dissociatedspinal ganglia of the chick. Replica cultures were fixed afterappropriate incubation and alkaloid treatment. Quantitativeestimates of the mean total neurite length per neuron (MNL)were made by use of camera lucida tracing. MNL values plottedagainst time of incubation gave control curves with an initiallag period, a phase of rapid increase, and a final phase inwhich MNL increase was retarded. Colchicine at 0.01–0.05µg/ml (2.4 x 10^-8-1.2 x 10^-7 M) caused reversible, concentrationdependent, inhibition of the increase in MNL when applied duringthe lag period or phase of rapid increase. At the highest concentrationthere was a net decrease in MNL. The effect of Colcemid at 0.05µg/ml was similar to that of colchicine, but more rapidlyreversible. In most experiments there was no loss of neuronsduring the period of inhibition of MNL increase by colchicineor Colcemid. Therefore selective destruction of neurons wasnot involved in the inhibition of neurite growth. Prolongedincubation after treatment with the highest concentration usedresulted in a 50% loss of neurons, in part through detachmentof viable cells. Quantitative radioautography of the alkaloid-treatedneurons with leucine-¹⁴C indicated little or no inhibition ofincorporation into protein during inhibition of MNL increase.The results strongly suggest that inhibition of neurite growthinvolves a specific effect of colchicine, presumably the disruptionof microtubules. They are thus consistent with the hypothesisthat the polymerization of microtubules is essential to theformation of nerve fibers.

Submitted on July 28, 1971
Revised on January 4, 1972

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