THE MECHANISM OF COLCHICINE INHIBITION OF MITOSIS: I. Kinetics of Inhibition and the Binding of H3-Colchicine

doi:10.1083/jcb.25.1.145

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CONTEMPORARY PAPERS

THE MECHANISM OF COLCHICINE INHIBITION OF MITOSIS : I. Kinetics of Inhibition and the Binding of H³-Colchicine

Edwin W. Taylor Ph.D.¹

¹ From the Committee on Biophysics, The University of Chicago

H³-colchicine of high specific activity (2.5 curies per mM)was prepared in order to study the mechanism of colchicine inhibitionof mitosis in cultures of human cells, strain K.B. No directeffects on the duration of the cell cycle or macromolecularsynthesis were demonstrable at a concentration of colchicinewhich completely inhibited mitosis. The radioactive compoundwas bound to the cells at a rate proportional to colchicineconcentration. The binding appeared to be reversible since theradioactivity of the cells reached a maximum value for a givenconcentration and was slowly lost after resuspension of thecells in fresh medium. A suitable exposure to colchicine producedaccumulation of metaphase-blocked mitoses after the colchicinewas removed from the medium. An exposure of 6 to 8 hours at10^-7 M was sufficient to block essentially all the cells inmetaphase, thus indicating that colchicine is bound to the majorityof interphase cells. The data are in quantitative agreementwith a mechanism involving reversible binding of colchicineto a set of cellular sites. Based on the correlation betweenthe time of first appearance of blocked mitoses and the radioactivityper cell, it is suggested that if a critical fraction (3 to5 per cent) of the sites are complexed, the cell is unable toform a functional mitotic spindle.

Submitted on March 3, 1963

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