MICROTUBULES SUPPRESS BLEBBING AND STIMULATE LAMELLAE EXTENSION IN SPREADING FIBROBLASTS
Tvorogova A.V.1, Vorobjev I.A.
A.N. Belozersky Institute of Physico-Chemical Biology and Biological faculty, Moscow State University, Moscow, Russia;
1 e-mail: annatvor@mail.ru
We compared spreading of Vero fibroblasts when microtubules were depolymerized or stabilized. After initial attachment cells start blebbing that continues for different time and
abruptly transfers into spreading. After spreading initiation, most cells spread in an anisotropic manner through stochastic formation of lamellipodia. A second mode was rapid, isotropic
spreading via formation of circular lamellum that occurs in 15 % of cells. The rate of spreading was maximal at the beginning and decreased during the first hour according to logarithmic
law. After 60 min many cells formed stable efges and started migrating on the substrate. However, cell area slowly continued to increase. Actin bundles are formed 20 min after cell
attachment and they first run along cell boundary. This system disassembles within 20-40 min and is substituted with stress fibers crossing the cell. In the isotropically spread cells no
actin bunbles are seen. Microtubules in the spreading cells enter into large blebs and all nascent lamella and later form radial array. When MTs has been depolymerized or stabilized
blebbing started before cells attached to the substrate and continue much longer than in control cells. In both cases the initial rate of spreading decrease several fold, and remains
constant for many hours. After 24 h the mean area occupied by cells with altered MT system was the same as in control. Alteration of MT system had moderate effect on actin
system - formation of actin cables started at the same time as in control (within 20 min upon cell attachment), however, they grew even in cells undergoing prolonged blebbing.
Actin cables running along cell margin were similar to tat in control cells, but they did not disappear up to 1 h. When stabilized, microtubules form chaotic array: they do not enter
blebs and in spread cells run parallel to the cell margin at a distance of 3-5 mm. We conclude that dynamic microtubules speed up completion of blebbing and promote early stages
of fibroblasts spreading.
Key words: actin, microtubules, spreading, microscopy
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