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Published online by Cambridge University Press: 01 August 2014
I will just make a few remarks before opening this General Discussion on the Cytological and Haematological effects of Antimitotics. I believe that numerous and interesting will be your comments. Let me first go back very briefly to the pioneer of these compounds, colchicine, already mentioned in the Egyptian, Greek, and Roman Pharmacology, but whose stathmokinetic effect was illustrated by P. Dustin Sr. just in 1934. We are lucky enough to have in our program the Dustin name perpetrated through his son, A. P. Dustin Jr.
Several years ago, since 1947 on, my group adopted colchicine to perform a test for evaluating in tissue culture the proliferative activity of the blood-forming cells from different physio-pathologic conditions. Using that method, among other it was possible to ascertain that — contrary to expectations — the proliferative activity of the bone marrow cells in human leukaemias is rather low, and this finding has been later confirmed by many investigators using different approachments and methods. Quite recently, in collaboration with Gociu M. and Airò R., I have started investigating the effect of colchicine on the blastic transformation of human peripheral blood lymphocytes stimulated with Phytohaemagglutinin (Phyto) in cell culture. The main purposes of this research project are:
1. To test the effect of colchicine on the blastic development process, which occurs as a consequence of such an intense RNA- and DNA- synthesis presented by human lymphocytes in the Phyto-culture system;
2. To evaluate the extent of proliferation of the Phyto-stimulated lymphocytes, because the divisions which occur in these cells could definitely contribute in making higher their number. (In fact, the number of the blast-like cells obtained after 3-4 days of cell culture with Phyto is a function not only of the number of the lymphocytes which undergo blastic transformation, but also of the number of the same blastlike cells which undergo mitotic division).