About 4-day rhythm of proliferative activity of fibroblast-like cell cultures isn’t endogenous and don’t depend from the variations of Earth’s magnetic field

A study of the 4-day rhythm of the proliferative activity of the embryonic fibroblast-like cells in the logarithmic growth phase was carried out. It was shown that in cell cultures obtained on different days from embryos of different ages, the phase of the 4-day rhythm coincides. In vitro the maxima of the proliferative activity were consistent with the minima of the motor activity of mice. Freezing the culture for 2 or 6 days does not cause a shift in the phase of the 4-day rhythm of cell proliferative activity compare with the unfreezing culture. That indicates the existence of an external synchronizer, which determines the 4-day infradian rhythm of the proliferative activity of embryonic cells. Then we daily thawed samples of single L929 culture of mice fibroblast-like cells for 22 and 17 days and researched the dynamics of its proliferative activity. We also showed 4-day rhythm of the simultaneous increase in the number of cells for all thawed samples. Taking into account that deep freezing of a culture leads to the cessation of all life processes, the fact we obtained indicates an exogenous mechanism of the formation of about a 4-day rhythm of the proliferative activity of cell culture. Variations of the Earth's magnetic field could be one of the external synchronizers of the infradian rhythm. We studied the increase in number of L929 cell in conditions of a magnetic permalloy screen and showed that the magnetic shielding no affect the parameters of the infradian rhythm of L929 cell proliferative activity. So further searches of the external synchronizers are need. © 2022, The Author(s).

Authors
Diatroptova M.A.1 , Kosyreva A.M. 1, 2 , Diatroptov M.E.3
Publisher
Nature Publishing Group
Number of issue
1
Language
English
Status
Published
Number
7130
Volume
12
Year
2022
Organizations
  • 1 A.P. Avtsyn Research Institute of Human Morphology, Petrovsky National Research Centre of Surgery, Tsyurupi str 3, Moscow, 117418, Russian Federation
  • 2 Medical Institute of Peoples’ Friendship University of Russia (RUDN University), Moscow, Russian Federation
  • 3 A.N. Severtsov Institute of Ecology and Evolution, Russian Academy of Science, Moscow, Russian Federation
Keywords
animal cell; animal experiment; animal tissue; article; cell proliferation; embryo cell; fibroblast; freezing; infradian rhythm; magnetic field; male; mouse; NCTC clone 929 cell line; nonhuman; animal; cell culture technique; circadian rhythm; fibroblast; infradian rhythm; magnetic field; Animals; Cell Culture Techniques; Circadian Rhythm; Fibroblasts; Infradian Rhythm; Magnetic Fields; Mice
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